Professor Colin Waters
Professor
School of Information and Physical Sciences (Physics)
- Email:colin.waters@newcastle.edu.au
- Phone:(02) 4921 5421
Between the sun and the earth
Supported by computational modelling and a handful of advanced data analysis strategies, Professor Colin Waters' insights into the inner workings of solar-terrestrial events are helping to safeguard several space-based assets and technologies.
Professor Colin Waters' research is – quite literally – out of this world. Probing the complex, and, at times, frenzied interactions between plasmas, the fourth state of matter, and planetary magnetospheres and ionospheres, it's also closer to home than one may think.
"I study naturally occurring phenomena from 120 kilometres altitude above the Earth's surface and beyond," the experimental physicist clarifies.
"Underneath that is the upper atmosphere, which is the realm of climate science, atmospheric chemistry, ionospheric physics and high frequency and radio communications."
"Beyond that is solar and space physics, astronomy and cosmology. Space physics requires knowledge of the behaviour of magnetised ionised gases (plasma) which overlaps with similar concepts in astrophysics and nuclear fusion research."
Simultaneously responsible for evaluating the impact of space weather on orbital vehicles and related infrastructure, Colin is a master at multitasking. Equal parts impressive and expansive, his work has important implications for understanding the universe and for practical, everyday life.
"The research has similar terms to forecasts provided by the Bureau of Meteorology," he shares.
"For example, wind speed in space science refers to the solar wind, and a storm warning means bright aurora and possible disruptions to satellite operations, communication systems and electricity supply networks."
"Information is sourced from both ground-based and spacecraft platforms."
Further than the eye can see
This illustrious research career began in 1990 when Colin undertook a PhD at the University of Newcastle. He developed a method to remote sense what is happening to the material in space, seeking to illustrate the dynamics of the near-Earth 'cold' plasma mass density reservoir.
"I created a 'cross phase' technique," the multiple-award winner explains.
"The method involves spectral analyses of data from two magnetometers located at the same longitude with a latitude spacing of ~150 kilometres."
"We custom-built the instruments so that they can sense very small magnetic field changes."
Instantly becoming of interest to the international space science community post-publication, Colin's method also greatly simplified previous data collection and processing.
"My 'cross phase' technique is now used by research groups in Canada, the United Kingdom, South Africa, Japan, Europe and the United States," he affirms.
"The applications developed from this method have similarly been the focus of many symposia both here and abroad."
Made-to-measure
The University of Alberta's Canadian Network for Space Research took particular notice of Colin's PhD work, offering him a two-year postdoctoral position to tailor-make the method for their remote sensing instruments in 1993.
"Newcastle had three magnetometers in operation during my candidateship, but Alberta had seven or eight," he recalls.
"These ran down the centre of the country."
"We talked about extending into the United States, but at the time there was a lack of funding."
"Since then, based on results from the cross-phase method, the Americans and Canadians have extended the instrument array down through the USA and into South America."
"In addition, the Europeans have installed a similar array that runs from Scandinavia to Italy."
Returning home to Australia in 1994 to team up with the University of Newcastle's Head of the School of Mathematical and Physical Sciences, Colin sought to refine his method even further. Together with Professors Fred Menk and Brian Fraser, the ambitious academic succeeded in cementing a mechanistic understanding of the near-Earth space plasma environment.
"Here, on the surface, we have a gas you can breathe, but as you go further out into space the gas density decreases," he describes.
"About 100 kilometres from Earth the UV light from the Sun ionises this gas, which turns it into a very low density plasma."
"These charged particles feel a strong force in the Earth's magnetic field – much stronger than gravity."
"My 'cross phase' technique allows us to find out a lot of things about what is going on up there, such as what happens when you have large magnetic storms and solar flares."
Creative collaborations
Colin has since branched out from his original PhD portfolio, putting theory and experiment together in a number of different areas.
"Pure, basic science research using experimental data and numerical models enables us to understand what is happening in space," he divulges.
"We then build applications on top of this foundation."
The esteemed educator and investigator is currently working with the University of Minnesota's Professor Bob Lysak and University of Newcastle's Dr Murray Sciffer on a solar activity research project, for example, employing computer simulations to figure out how and why storms are able to energise 'killer electrons' that threaten spacecraft operations (e.g. GPS satellites) and generate large currents in the atmosphere.
"These then generate electric fields in the ground, which generate voltages in long, metal pipelines used for natural gas transport, enhancing corrosion," Colin states.
Colin is also teaming up with the Bureau of Meteorology's Space Weather Unit and the Australian Energy Marketing Operator to examine the impact of enhanced solar activity on electricity supply infrastructure.
"It drives geomagnetic-induced currents into the electricity grid," he says.
"In severe cases, these can damage expensive equipment at power and substations."
"Recently there have been reports of transformer failures in New Zealand and South Africa, which is getting alarmingly close to Australian latitudes."
The dynamic group is engaging in electricity grid modelling to "build knowledge" and "understand these risks," seeking to one day soon formulate and implement warning systems and mitigation procedures.
A related project focuses on the high latitude regions, where the aurora are seen, and space weather impacts on Earth's surface are more pronounced. Since 2000 Colin has been working with Dr Brian Anderson at the Johns Hopkins University Applied Physics Laboratory (USA), using low Earth orbit satellite data from the Iridium constellation, to map auroral currents and develop the capability to monitor energy deposition into the auroral zones and upper atmosphere.
Guide to the galaxy
At the same time, Colin is involved in the Square Kilometre Array (SKA). Testing the limits of 21st century human engineering and scientific endeavour, the exciting extra-terrestrial radio telescope project is designed to operate over a wide range of frequencies and survey the sky more than ten thousand times faster than ever before. Its size will make it 50 times more sensitive than any other radio instrument.
"We've been informing the international SKA community of the difficulties in obtaining data," he says.
"If you're trying to image something very far away, temporal changes in the Earth's ionosphere will mess it up."
"It's like having a pair of glasses on that makes everything appear foggy, but worse than that, the 'fog' keeps changing with time."
"So we're trying to understand how big the problem is and figure out ways to minimise its impact."
To infinity and beyond
Space physics is a science where researchers observe the offerings of nature from a distance instead of up close and personally in a laboratory setting. The particles and fields being monitored are invisible to the naked eye. Nonetheless, Colin declares it's important for "everything we depend on."
"The discipline is relatively new, motivated by discoveries from space exploration since the late 1950s" he concedes.
"But the research is essential for GPS, satellite communications and the Internet."
Consequently believing Australia needs a say in space science research, the Director of the University's Centre for Space Physics is pushing for a new national frontier of "discovery and excitement."
"It would be wonderful if we had our own space agency," he muses.
"We're missing out on a lot of the excitement, student training, and technology spin-offs associated with space exploration."
Between the sun and the earth
Supported by computational modelling and a handful of advanced data analysis strategies, Professor Colin Waters’ insights into the inner workings of solar-terre
Career Summary
Biography
Over 20 years experience in space physics research and tertiary teaching. Research interests has spanned the areas of ultra-low frequency (ULF) plasma wave signatures, associated mathematical modeling of ULF wave effects in the ionosphere and magnetosphere and the dynamics of the auroral currents and electromagnetic energy budget derived from the Iridium constellation magnetometer and SuperDARN radar data. Designed and operated induction and fluxgate magnetometer systems and was data manager for the NewMag payload on FedSat, developing algorithms to provide error-free timing of those data. Have ~105 peer reviewed publications in space physics, awarded ~$4M in ARC-DP and LEIF funding, supervised ~20 MSc and PhD students, associate editor of Journal of Geophysical Research Space Physics and director of data anlaytics company, Tentacle CMI.
Research Expertise
Space Physics, both experimental (data analysis) and mathematical modeling (computer modeling) with emphasis on remote sensing near Earth space plasma dynamics using ULF waves, magnetometer design and data analyses, high pressure gas pipeline voltage data analysis for pipeline corrosion, modeling MHD (magnetised fluid) equations, analyses of satellite data; magnetometer signatures and optical emissions of the aurora, spherical harmonic fits of Iridium magnetometer data, Birkeland currents and auroral energy deposition into the ionosphere and thermosphere, ionosphere physics and HF over the horizon radar data analysis, development of computer codes for space physics data extraction and analyses, ML and data prediction algorithms
Teaching Expertise
NSW High school mathematics and physics (up to Yr12, 2 and 3 unit) TAFE physics and chemistry, private tutoring; Yr12 to University maths and physics University Level: First year; E&M, optics, thermal physics, Atomic and Nuclear, QM, mechanics, continuum mechanics, fluids, Introduction to computing Second Year; E&M (differential calculus), optics, thermodynamics, statistics, sports mechanics, mechanics (Lagrange and Hamiltonian), Mathematical physics, Scientific data collection (sensors) and instrumentation, Web page design Third year; E&M, optics, digital and analog electronics Honours; Space physics, digital signal processing Honours; Digital Signal Processing Masters/PhD student supervision
Administrative Expertise
Faculty computer committee, Faculty teaching and learning committee, Faculty marketing and community (Chair), Assistant Dean (Marketing and Community), National Committee for Radio Science (Academy of Science), Program convenor for B.Sc. and B.Sc (Honours)
Collaborations
" Co-Investigator on the MICE, CubeSat project at Johns Hopkins University Applied Physics Laboratory " Co-Investigator on CARISMA, the Canadian ground magnetometer array, for remote sensing plasma mass density in the magnetosphere " Co-author on book (Wiley) on remote sensing the magnetosphere using ULF variations, development of spherical harmonic cap and elementary current methods applied to Iridium satellite constellation data, including the NSF funded AMPERE project, first to combine the Iridium satellite data with SuperDARN radar data to show input Poynting flux over both the northern and southern auroral zones. First results of Birkeland current location and intensity control by the interplanetary magnetic field (using Iridium satellite data). First use of Iridium, SuperDARN and ground magnetometer data to provide ionosphere conductance estimates over large spatial areas of the auroral ionosphere. Revision of FitACF algorithm (SuperDARN) to improve spectral width estimates from radar data. First modelling of ULF wave propagation through the ionosphere that includes inductive Hall effects and oblique geomagnetic field effects, predicted phase distortions in radio astronomy interferometer signals. Developed time dependent, 2-D models of ULF wave propagation that includes a realistic ionosphere/atmosphere system. ARC-DP grants on computer simulations (3D, time dependent) in collaboration with University of Minnesota, USA.
Qualifications
- PhD, University of Newcastle
- Bachelor of Education, Bachelor of Physics, Avondale College
- Bachelor of Science (Honours), University of Newcastle
Keywords
- Aurora
- Computer modeling
- Digital Signal Processing
- HF radar
- Ionosphere physics
- Iridium satellite data
- Magnetosphere physics
- Physics Laboratory experience
- Space Physics
Fields of Research
Code | Description | Percentage |
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510903 | Mesospheric, thermospheric, ionospheric and magnetospheric physics | 100 |
Professional Experience
UON Appointment
Title | Organisation / Department |
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Professor | University of Newcastle School of Information and Physical Sciences Australia |
Academic appointment
Dates | Title | Organisation / Department |
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1/1/2008 - | Membership - Australian Academy of Science NCRS | Australian Academy of Science |
1/6/2006 - |
Member Australian Academy of Science NCSS Sun-Earth WG |
Australian Academy of Science |
1/1/2000 - 1/12/2000 | Visiting Research Fellow | Johns Hopkins University Applied Physics Laboaratory Space Department United States |
1/1/1994 - | Membership - Australian Institue of Physics | Australian Institue of Physics Australia |
1/2/1989 - 1/12/1991 | Teacher | Macquarie College (High School) Maths Australia |
Membership
Dates | Title | Organisation / Department |
---|---|---|
Member - American Geophysical Union (AGU) | American Geophysical Union United States |
|
1/1/2013 - | Organising Committee Member -(AGU) Chapman Conference ULF waves | American Geophysical Union United States |
Invitations
External Reviewer - Programs
Year | Title / Rationale |
---|---|
2002 |
Reviewer Organisation: Avondale College Description: B. Sc. review process |
Publications
For publications that are currently unpublished or in-press, details are shown in italics.
Book (1 outputs)
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2013 |
Menk FW, Waters CL, Magnetoseismology: Ground-Based Remote Sensing of Earth's Magnetosphere, Wiley-VCH, Germany, 243 (2013) [A1]
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Chapter (9 outputs)
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2020 |
Waters CL, Anderson BJ, Green DL, Korth H, Barnes RJ, Vanhamaki H, 'Science data products for AMPERE', Ionospheric Multi-Spacecraft Analysis Tools. Approaches for Deriving Ionospheric Parameters, Springer Nature, Cham, Switzerland 141-165 (2020) [B1]
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2019 |
Waters CL, 'Observations, diagnostics and applications', Geomagnetism, Aeronomy and Space Weather: A Journey from the Earth s Core to the Sun 195-206 (2019)
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2013 |
Menk FW, Waters CL, 'Space Weather Applications', Magnetoseismology, Wiley-VCH Verlag GmbH & Co. KGaA 133-161 (2013)
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2006 |
Fenrich FR, Waters CL, Connors M, Bredeson C, 'Ionospheric Signatures of ULF Waves: Passive Radar Techniques', Magnetospheric ULF Waves: Synthesis and New Directions, American Geophysical Union, Washington, DC 259-271 (2006) [B1]
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2006 |
Waters CL, Menk FW, Thomsen MF, Foster C, Fenrich FR, 'Remote Sensing the Magnetosphere Using Ground-Based Observations of ULF Waves', Magnetospheric ULF Waves: Synthesis and New Directions, American Geophysical Union, Washington, DC 319-340 (2006) [B1]
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Journal article (107 outputs)
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2024 |
Engebretson MJ, Yang L, Steinmetz ES, Pilipenko VA, Moldwin MB, McCuen BA, et al., 'Extreme Geomagnetic Disturbances (GMDs) Observed in Eastern Arctic Canada: Occurrence Characteristics and Solar Cycle Dependence', Journal of Geophysical Research: Space Physics, 129 (2024) [C1] Extreme (>20¿nT/s) geomagnetic disturbances (GMDs, also denoted as MPEs¿magnetic perturbation events)¿impulsive nighttime disturbances with time scale ~5¿10¿min, have sufficien... [more] Extreme (>20¿nT/s) geomagnetic disturbances (GMDs, also denoted as MPEs¿magnetic perturbation events)¿impulsive nighttime disturbances with time scale ~5¿10¿min, have sufficient amplitude to cause bursts of geomagnetically induced currents (GICs) that can damage technical infrastructure. In this study, we present occurrence statistics for extreme GMD events from five stations in the MACCS and AUTUMNX magnetometer arrays in Arctic Canada at magnetic latitudes ranging from 65° to 75°. We report all large (=6¿nT/s) and extreme GMDs from these stations from 2011 through 2022 to analyze variations of GMD activity over a full solar cycle and compare them to those found in three earlier studies. GMD activity between 2011 and 2022 did not closely follow the sunspot cycle, but instead was lowest during its rising phase and maximum (2011¿2014) and highest during the early declining phase (2015¿2017). Most of these GMDs, especially the most extreme, were associated with high-speed solar wind streams (Vsw >600¿km/s) and steady solar wind pressure. All extreme GMDs occurred within 80¿min after substorm onsets, but few within 5¿min. Multistation data often revealed a poleward progression of GMDs, consistent with a tailward retreat of the magnetotail reconnection region. These observations indicate that extreme GIC hazard conditions can occur for a variety of solar wind drivers and geomagnetic conditions, not only for fast-coronal mass ejection driven storms.
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2023 |
Hong Y, Deng Y, Zhu Q, Maute A, Hairston MR, Waters C, et al., 'Inter-hemispheric asymmetries in high-latitude electrodynamic forcing and the thermosphere during the October 8 9, 2012, geomagnetic storm: An integrated data Model investigation', Frontiers in Astronomy and Space Sciences, 10 (2023) [C1] Inter-hemispheric asymmetry (IHA) in Earth¿s ionosphere¿thermosphere (IT) system can be associated with high-latitude forcing that intensifies during storm time, e.g., ion convect... [more] Inter-hemispheric asymmetry (IHA) in Earth¿s ionosphere¿thermosphere (IT) system can be associated with high-latitude forcing that intensifies during storm time, e.g., ion convection, auroral electron precipitation, and energy deposition, but a comprehensive understanding of the pathways that generate IHA in the IT is lacking. Numerical simulations can help address this issue, but accurate specification of high-latitude forcing is needed. In this study, we utilize the Active Magnetosphere and Planetary Electrodynamics Response Experiment-revised fieldaligned currents (FACs) to specify the high-latitude electric potential in the Global Ionosphere and Thermosphere Model (GITM) during the October 8¿9, 2012, storm. Our result illustrates the advantages of the FAC-driven technique in capturing high-latitude ion drift, ion convection equatorial boundary, and the storm-time neutral density response observed by satellite. First, it is found that the cross-polar-cap potential, hemispheric power, and ion convection distribution can be highly asymmetric between two hemispheres with a clear By dependence in the convection equatorial boundary. Comparison with simulation based on mirror precipitation suggests that the convection distribution is more sensitive to FAC, while its intensity also depends on the ionospheric conductance-related precipitation. Second, the IHA in the neutral density response closely follows the IHA in the total Joule heating dissipation with a time delay. Stronger Joule heating deposited associated with greater high-latitude electric potential in the southern hemisphere during the focus period generates more neutral density as well, which provides some evidences that the high-latitude forcing could become the dominant factor to IHAs in the thermosphere when near the equinox. Our study improves the understanding of storm-time IHA in high-latitude forcing and the IT system.
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2023 |
Madelaire M, Laundal K, Gjerloev J, Hatch S, Reistad J, Vanhamäki H, et al., 'Spatial Resolution in Inverse Problems: The EZIE Satellite Mission', Journal of Geophysical Research: Space Physics, 128 (2023) [C1] Inverse modeling has become one of the primary methods for studying ionospheric electrodynamics, especially when using magnetic field measurements from below the ionosphere. We pr... [more] Inverse modeling has become one of the primary methods for studying ionospheric electrodynamics, especially when using magnetic field measurements from below the ionosphere. We present a method for quantifying the spatial resolution in an inverse model for non-uniformly sampled spatial data. This method provides a tool for assessing if a model can resolve the physical phenomena of interest. We quantify the spatial resolution for the Spherical Elementary Current System basis functions to model the ionospheric dynamics. Our results apply to models with spatially confined model parameters, unlike spherical harmonics where the model parameters describe the amplitude of global surface functions. The method is demonstrated for the upcoming Electrojet Zeeman Imaging Explorer cubesat mission which will provide spatially distributed remote sensing measurements of the magnetic field in the mesosphere. We show that, including measurements from a single ground magnetometer can significantly improve the spatial resolution. However, the impact of including a ground magnetometer depends on the relative position of the station with respect to the mesospheric measurements. In addition, a method for reducing two regularization parameters to one is presented. Reducing the amount of regularization parameters simplifies the optimization problem and facilitates a fair comparison between the models with and without a ground magnetometer.
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2022 |
Pedersen MN, Vanhamaki H, Aikio AT, Waters CL, Gjerloev JW, Kaki S, Workayehu AB, 'Effect of ICME-Driven Storms on Field-Aligned and Ionospheric Currents From AMPERE and SuperMAG', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 127 (2022) [C1]
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2022 |
Barnett RL, Green DL, Waters CL, Lore JD, Smithe DN, Myra JR, 'RF-transpond: A 1D coupled cold plasma wave and plasma transport model for ponderomotive force driven density modification parallel to B The RF-Transpond code couples a fluid plasma transport solver with a frequency domain cold plasma RF wave solver in a 1D domain parallel to a strong background magnetic field. A p... [more] The RF-Transpond code couples a fluid plasma transport solver with a frequency domain cold plasma RF wave solver in a 1D domain parallel to a strong background magnetic field. A ponderomotive force term proportional to parallel gradients in the electric field strength is included in the transport model in order to describe ponderomotive effects in the scrape-off layer (SOL) of fusion plasmas. The transport and wave codes are verified independently and a coupled case corresponding to experimental parameters from the LArge Plasma Device (LAPD) is presented. The density perturbation ratio Rn, calculated to describe ponderomotive force driven modifications, is up to 20% for the simulation inputs used. Program summary: Program Title: rf-transpond CPC Library link to program files: https://doi.org/10.17632/xn3y2yx9wj.1 Developer's repository link: https://github.com/rhealbarnett/rf-transpond.git Licensing provisions: MIT Programming language: Matlab Nature of problem: Self consistent coupled model describing ponderomotive force driven density modification in the near field of RF antennas. Solution method: The density and velocity solutions are calculated from the continuity and momentum transport equations, solved using a finite difference time domain method, which include a ponderomotive force term that depends on the radio frequency electric field. The frequency domain electric field solution is calculated from the cold plasma wave equation, solved using a finite difference frequency domain method, where the cold plasma dielectric tensor is a function of the density. The electric field and density couple the two models, providing self consistency.
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2022 |
Salzano M, Lessard MR, Noh S, Kim H, Waters C, Engebretson MJ, et al., 'Modeling the Effects of Drift Shell Splitting in Two Case Studies of Simultaneous Observations of Substorm-Driven Pi1B and IPDP-Type EMIC Waves', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 127 (2022) [C1]
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2022 |
Barnett RL, Green DL, Waters CL, Lore JD, Smithe DN, Myra JR, et al., 'Ponderomotive force driven density modifications parallel to B-0 on the LAPD', PHYSICS OF PLASMAS, 29 (2022) [C1]
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2022 |
Marshall RA, Pearce EA, Waters CL, Terkildsen M, 'Forecasting GIC Activity Associated With Solar Wind Shocks for the Australian Region Power Network', SPACE WEATHER-THE INTERNATIONAL JOURNAL OF RESEARCH AND APPLICATIONS, 20 (2022) [C1]
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2022 |
Warden LJ, Waters CL, Sciffer MD, Vellante M, 'On the Estimation of Resonance Widths of Field Line Resonances Using Ground Magnetometer Data', FRONTIERS IN ASTRONOMY AND SPACE SCIENCES, 9 (2022) [C1]
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2021 |
Warden LJ, Waters CL, Sciffer MD, Hull AJ, 'On the Estimation of the Ratio of ULF Wave Electric Fields in Space and the Magnetic Fields at the Ground', Journal of Geophysical Research: Space Physics, 126 (2021) [C1] Three new methods for estimating a ratio of the ultralow frequency (ULF; 1¿100¿mHz) wave equatorial electric field amplitude in the Earth's magnetosphere to ground magnetic f... [more] Three new methods for estimating a ratio of the ultralow frequency (ULF; 1¿100¿mHz) wave equatorial electric field amplitude in the Earth's magnetosphere to ground magnetic field amplitudes for field line resonances (FLR) are described. These methods use ratios of the time series extrema, ratios of the envelope waveform and the ratio of the spectral amplitude at the FLR frequency. These methods were applied to four ULF resonance intervals; three detected by the Van Allen Probe A spacecraft and one detected by the POLAR spacecraft. The intervals were conjoined with the CARISMA and IMAGE ground magnetometer arrays. The spectral ratio results for the Van Allen Probe intervals were approximately twice to three times the ratios estimated from the two time series based methods. The POLAR interval showed similar values across all three methods. The differences are attributed to broadband frequency signals that modify the time series amplitudes, while the spectral method avoids these off-resonant frequencies. Based on the results of this study, a spectral based method for calculating the ratio at the FLR frequency is best.
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2021 |
Carter JA, Samsonov AA, Milan SE, Branduardi-Raymont G, Ridley AJ, Paxton LJ, et al., 'Field-Aligned Current During an Interval of B We model an interval of remarkable interplanetary magnetic field (IMF), for which we have a comprehensive set of observational data. This interval is associated with the arrival o... [more] We model an interval of remarkable interplanetary magnetic field (IMF), for which we have a comprehensive set of observational data. This interval is associated with the arrival of an interplanetary coronal mass ejection. The solar wind densities at the time are particularly high and the IMF is primarily northward over many hours. This results in strong auroral emissions within the polar cap in a cusp spot, which we associate with lobe reconnection at the high-latitude magnetopause. We also observe areas of upwards field-aligned current (FAC) within the summer Northern Hemisphere polar cap that exhibit large current magnitudes. The model can reproduce the spatial distribution of the FACs well, even under changing conditions in the incoming IMF. Discrepancies exist between the modeled and observed current magnitudes. Notably, the winter Southern Hemisphere exhibits much lower current magnitudes overall. We also model a sharp transition of the location of magnetopause reconnection at the beginning of the interval, before the IMF remained northward for many hours. The reconnection location changed rapidly from a subsolar location at the low-latitude magnetopause under southward IMF conditions, to a high-latitude lobe reconnection location when the field is northward. This occurs during a fast rotation of the IMF at the shock front of a magnetic cloud.
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2021 |
Pedersen MN, Vanhamäki H, Aikio AT, Käki S, Workayehu AB, Waters CL, Gjerloev JW, 'Field-Aligned and Ionospheric Currents by AMPERE and SuperMAG During HSS/SIR-Driven Storms', Journal of Geophysical Research: Space Physics, 126 (2021) [C1] This study considers 28 geomagnetic storms with Dst (Formula presented.) nT driven by high-speed streams (HSSs) and associated stream interaction regions (SIRs) during 2010¿2017. ... [more] This study considers 28 geomagnetic storms with Dst (Formula presented.) nT driven by high-speed streams (HSSs) and associated stream interaction regions (SIRs) during 2010¿2017. Their impact on ionospheric horizontal and field-aligned currents (FACs) have been investigated using superposed epoch analysis of SuperMAG and AMPERE data, respectively. The zero epoch ((Formula presented.)) was set to the onset of the storm main phase. Storms begin in the SIR with enhanced solar wind density and compressed southward oriented magnetic field. The integrated FAC and equivalent currents maximize 40 and 58¿min after (Formula presented.), respectively, followed by a small peak in the middle of the main phase ((Formula presented.) +¿4¿hr), and a slightly larger peak just before the Dst minimum ((Formula presented.) +¿5.3¿hr). The currents are strongly driven by the solar wind, and the correlation between the Akasofu (Formula presented.) and integrated FAC is 0.90. The number of substorm onsets maximizes near (Formula presented.). The storms were also separated into two groups based on the solar wind dynamic pressure pdyn in the vicinity of the SIR. High pdyn storms reach solar wind velocity maxima earlier and have shorter lead times from the HSS arrival to storm onset compared with low pdyn events. The high pdyn events also have sudden storm commencements, stronger solar wind driving and ionospheric response at (Formula presented.), and are primarily responsible for the first peak in the currents after (Formula presented.). After (Formula presented.) days, the currents and number of substorm onsets become higher for low compared with high pdyn events, which may be related to higher solar wind speed.
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2020 |
Lysak RL, Song Y, Waters CL, Sciffer MD, Obana Y, 'Numerical Investigations of Interhemispheric Asymmetry due to Ionospheric Conductance', Journal of Geophysical Research: Space Physics, 125 (2020) [C1]
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2018 |
Anderson BJ, Olson CN, Korth H, Barnes RJ, Waters CL, Vines SK, 'Temporal and Spatial Development of Global Birkeland Currents', Journal of Geophysical Research: Space Physics, 123 4785-4808 (2018) [C1]
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2018 |
Gjerloev JW, Waters CL, Barnes RJ, 'Deriving Global Convection Maps From SuperDARN Measurements', Journal of Geophysical Research: Space Physics, 123 2902-2915 (2018) [C1]
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2018 |
Yang JY, Dunlop MW, Lühr H, Xiong C, Yang YY, Cao JB, et al., 'Statistical Correlation Analysis of Field-Aligned Currents Measured by Swarm', Journal of Geophysical Research: Space Physics, 123 8170-8184 (2018) [C1]
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2017 |
Anderson BJ, Korth H, Welling DT, Merkin VG, Wiltberger MJ, Raeder J, et al., 'Comparison of predictive estimates of high-latitude electrodynamics with observations of global-scale Birkeland currents', SPACE WEATHER-THE INTERNATIONAL JOURNAL OF RESEARCH AND APPLICATIONS, 15 352-373 (2017) [C1]
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2017 |
Wu J, Bryant MS, Ridley CG, Shen Y, Yang L, Clausen LBN, et al., 'A comparison of small-scale magnetic fluctuations in the Region 1 and 2 field-aligned current systems', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 122 3277-3290 (2017) [C1]
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2016 |
Currie JL, Waters CL, Menk FW, Sciffer MD, Bristow WA, 'SuperDARN backscatter during intense geomagnetic storms', Radio Science, 51 814-825 (2016) [C1] It is often stated that high-frequency radars experience a loss of backscatter during geomagnetic storm events. The occurrence of backscatter during 25 intense geomagnetic storms ... [more] It is often stated that high-frequency radars experience a loss of backscatter during geomagnetic storm events. The occurrence of backscatter during 25 intense geomagnetic storms was examined using data from the Bruny Island and Kodiak radars and a superposed epoch analysis. It was found that while a reduction of backscatter occurred in the middle to far ranges, there was an increase in the amount of backscatter from close range following storm onset. Ray tracing showed that an enhanced charge density in the E region can reduce the chance of F region and increase the chance of E region backscatter. It was also shown that reduction in backscatter cannot be explained by D region absorption. Using a normalized SYM-H value, percentage time through recovery phase can be estimated during storm progression which allows a prediction of backscatter return in real time that accounts for varying storm recovery phase duration.
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2016 |
Shah A, Waters CL, Sciffer MD, Menk FW, 'Energization of outer radiation belt electrons during storm recovery phase', Journal of Geophysical Research: Space Physics, 121 10-860 (2016) [C1] We use test particle simulations incorporating an MHD model of ULF wave propagation in the magnetosphere with realistic ionosphere boundary conditions to study electron energizati... [more] We use test particle simulations incorporating an MHD model of ULF wave propagation in the magnetosphere with realistic ionosphere boundary conditions to study electron energization in the dayside outer Van Allen radiation belt, referenced to in situ particle and wave observations. On 7 January 2011 the THEMIS spacecraft detected 3 and 4¿5 mHz waves simultaneous with flux enhancement of >10¿keV electrons during the early recovery phase of a moderate geomagnetic storm. We find that internal energization of equatorially mirroring electrons via nonresonant ULF wave-particle interactions can explain these observations. The wave poloidal components cause radial drift of electrons, increasing (decreasing) their kinetic energy as they move inward (outward). Electrons with initial kinetic energies of a few keV can be energized to double these values within an hour by interaction with the 3 mHz waves. The energization rate is somewhat less for the 4¿5 mHz waves. An increase in the ionospheric conductance decreases the power of the fast mode wave, reducing radial drift velocities and hence decreasing the rate of energization. The fast mode poloidal field varies with radial distance and longitude, and this also affects energization. Electrons which drift outward encounter a region where the toroidal field due to the field line resonance becomes dominant and produces strong azimuthal drift. These electrons become trapped in an L-shell range just outward of the resonance region and are not energized.
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2016 |
Anderson BJ, Russell CT, Strangeway RJ, Plaschke F, Magnes W, Fischer D, et al., 'Electrodynamic context of magnetopause dynamics observed by magnetospheric multiscale', Geophysical Research Letters, 43 5988-5996 (2016) [C1] Magnetopause observations by Magnetospheric Multiscale (MMS) and Birkeland currents observed by the Active Magnetosphere and Planetary Electrodynamics Response Experiment are used... [more] Magnetopause observations by Magnetospheric Multiscale (MMS) and Birkeland currents observed by the Active Magnetosphere and Planetary Electrodynamics Response Experiment are used to relate magnetopause encounters to ionospheric electrodynamics. MMS magnetopause crossings on 15 August and 19 September 2015 occurred earthward of expectations due to solar wind ram pressure alone and coincided with equatorward expansion of the Birkeland currents. Magnetopause erosion, consistent with expansion of the polar cap, contributed to the magnetopause crossings. The ionospheric projections of MMS during the events and at times of the magnetopause crossings indicate that MMS observations are related to the main path of flux transport in one case but not in a second. The analysis provides a way to routinely relate in situ observations to the context of in situ convection and flux transport.
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2015 |
Takahashi K, Waters C, Glassmeier KH, Kletzing CA, Kurth WS, Smith CW, 'Multifrequency compressional magnetic field oscillations and their relation to multiharmonic toroidal mode standing Alfvén waves', Journal of Geophysical Research A: Space Physics, (2015) [C1] ©2015. American Geophysical Union. The power spectrum of the compressional component of magnetic fields observed by the Van Allen Probes spacecraft near the magnetospheric equator... [more] ©2015. American Geophysical Union. The power spectrum of the compressional component of magnetic fields observed by the Van Allen Probes spacecraft near the magnetospheric equator in the dayside plasmasphere sometimes exhibits regularly spaced multiple peaks at frequencies below 50 mHz. We show by detailed analysis of events observed on two separate days in early 2014 that the frequencies change smoothly with the radial distance of the spacecraft and appear at or very near the frequencies of the odd harmonics of mutiharmonic toroidal mode standing Alfvén waves seen in the azimuthal component of the magnetic field. Even though the compressional component had a low amplitude on one of the selected days, its spectral properties are highlighted by computing the ratio of the spectral powers of time series data obtained from two spatially separated Van Allen Probes spacecraft. The spectral similarity of the compressional and azimuthal components suggests that the compressional component contains field line resonance characteristics.
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2015 |
Shah A, Waters CL, Sciffer MD, Menk FW, Lysak RL, 'Effect of the ionosphere on the interaction between ULF waves and radiation belt electrons', Journal of Geophysical Research A: Space Physics, (2015) [C1] ©2015. American Geophysical Union. All Rights Reserved. The diffusion and energization of electrons in the equatorial plane of Earth's magnetosphere by ULF waves under differ... [more] ©2015. American Geophysical Union. All Rights Reserved. The diffusion and energization of electrons in the equatorial plane of Earth's magnetosphere by ULF waves under different ionosphere boundary conditions are examined. Using test-particle simulations and considering intervals of weak geomagnetic activity, we find that the highest energization and minimum diffusion rates correspond to nightside ionosphere conditions. Conversely, the highest diffusion rates and minimum energization are seen for a perfectly reflecting ionosphere boundary. The maximum energies gained under dayside conditions, when Hall conductivity is included, are slightly greater than the maximum energy for similar conditions without Hall conductivity. The diffusion rates for dayside ionosphere conditions with only Pedersen conductivity are greater than the diffusion rates when Hall conductivity is included. These findings show that ULF wave-particle interactions in Earth's magnetosphere depend on the ionosphere conductance.
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2015 |
Waters CL, Gjerloev JW, Dupont M, Barnes RJ, 'Global maps of ground magnetometer data', Journal of Geophysical Research: Space Physics, 120 9651-9660 (2015) [C1] A statistical-based method combined with basis function expansion techniques is described in order to provide extensive maps of the ground level perturbation magnetic field from 4... [more] A statistical-based method combined with basis function expansion techniques is described in order to provide extensive maps of the ground level perturbation magnetic field from 40° magnetic latitude to the north magnetic pole for all longitudes. The method combines historical data from the SuperMAG data base, Principal Component Analysis, and a spherical cap harmonic basis function expansion in order to fill in magnetic perturbation data where there are no magnetometers and produce the poloidal current potential. The maps have a regular grid with a 2° latitude and 1 h longitude spacing. The statistical process uses SuperMAG data derived magnetic indices plus the solar zenith angle which orders the resulting spatial maps by geomagnetic activity indicators to enhance model agreement with the data. For quiet through to moderate magnetic activity intervals, the root-mean-square error between the input and the fitted data are 18 nT and 10 nT for the north-south and east-west components, respectively, which are of similar magnitude to the statistical uncertainty in the SuperMAG data set.
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2015 |
Jakosky BM, Lin RP, Grebowsky JM, Luhmann JG, Mitchell DF, Beutelschies G, et al., 'The mars atmosphere and volatile evolution (MAVEN) mission', Space Science Reviews, 195 3-48 (2015) The MAVEN spacecraft launched in November 2013, arrived at Mars in September 2014, and completed commissioning and began its one-Earth-year primary science mission in November 201... [more] The MAVEN spacecraft launched in November 2013, arrived at Mars in September 2014, and completed commissioning and began its one-Earth-year primary science mission in November 2014. The orbiter¿s science objectives are to explore the interactions of the Sun and the solar wind with the Mars magnetosphere and upper atmosphere, to determine the structure of the upper atmosphere and ionosphere and the processes controlling it, to determine the escape rates from the upper atmosphere to space at the present epoch, and to measure properties that allow us to extrapolate these escape rates into the past to determine the total loss of atmospheric gas to space through time. These results will allow us to determine the importance of loss to space in changing the Mars climate and atmosphere through time, thereby providing important boundary conditions on the history of the habitability of Mars. The MAVEN spacecraft contains eight science instruments (with nine sensors) that measure the energy and particle input from the Sun into the Mars upper atmosphere, the response of the upper atmosphere to that input, and the resulting escape of gas to space. In addition, it contains an Electra relay that will allow it to relay commands and data between spacecraft on the surface and Earth.
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2015 |
Lysak RL, Song Y, Sciffer MD, Waters CL, 'Propagation of Pi2 pulsations in a dipole model of the magnetosphere', Journal of Geophysical Research: Space Physics, 120 355-367 (2015) [C1] ©2014. American Geophysical Union. All Rights Reserved. Localized fast flows that impinge on the inner magnetosphere from the plasma sheet are observed to oscillate on time scales... [more] ©2014. American Geophysical Union. All Rights Reserved. Localized fast flows that impinge on the inner magnetosphere from the plasma sheet are observed to oscillate on time scales of minutes. The compression ahead of these flows will launch fast mode waves, while the velocity shears at the edges of these flows directly excite shear Alfvén waves. These waves, which are coupled by gradients in the Alfvén speed, have been suggested as a source for the Pi1 and Pi2 waves that are observed at both high and low latitudes in the ionosphere. A new three-dimensional simulation of the propagation of ULF waves in the dipolar region of the magnetosphere has been developed to study these coupled wave modes. This model includes a height-resolved ionospheric conductivity so that ionospheric fields can be more realistically determined, as well as a direct calculation of ground magnetic fields to compare with ground magnetometers using an inductive ionosphere model. Results from this model show that a plasmaspheric resonance can be set up by waves with periods about 1 min and that field line resonances can be excited both inside and outside the plasmasphere. The use of the inductive ionosphere model leads to the conclusion that even a uniform Hall conductivity can break the dawn-dusk symmetry of the convection pattern. Waves from a source at 10 Earth radii reach the ionosphere with time delays between high and low latitudes of tens of seconds, with implications for the timing of substorm phenomena observed by spacecraft and by ground magnetometers and radars.
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2015 |
Norouzi-Sedeh L, Waters CL, Menk FW, 'Survey of ULF wave signatures seen in the Tasman International Geospace Environment Radars data', Journal of Geophysical Research: Space Physics, 120 949-963 (2015) [C1] ©2015. American Geophysical Union. All Rights Reserved. Ultralow frequency (ULF) plasma waves propagate through the magnetosphere and ionosphere where they can alter the Doppler v... [more] ©2015. American Geophysical Union. All Rights Reserved. Ultralow frequency (ULF) plasma waves propagate through the magnetosphere and ionosphere where they can alter the Doppler velocity of HF radar echoes. Data from the two Tasman International Geospace Environment Radars and the fluxgate and induction coil magnetometers located on Macquarie Island (54.5S, 158.95E geographic) over 2006-2009 show that ULF wave signatures are common. Using coincident radar and magnetometer data selection criteria, 194 events representing a total of 233.4 h were identified. The majority of ULF signatures seen in the radar data were detected between 06 and 12 UT (15 and 21 LT). Using the Maximum Entropy Method, the spectral content showed favored frequencies of 1.6, 2.1, 2.9, and 3.3 mHz but no obvious variation of frequency with latitude. Most of the observed frequencies were in the range 1-4 mHz. A class of Doppler velocity signatures that appeared as a zigzag shape in the radar range:time plots were identified and may be related to the expected plasmapause latitudes. Regularly spaced, favored frequencies appeared in the ground magnetometer data during the afternoon, night, and morning sectors for those days where ULF wave events were observed in the radar data.
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2015 |
Loi ST, Murphy T, Cairns IH, Menk FW, Waters CL, Erickson PJ, et al., 'Real-time imaging of density ducts between the plasmasphere and ionosphere', Geophysical Research Letters, (2015) [C1] Ionization of the Earth's atmosphere by sunlight forms a complex, multilayered plasma environment within the Earth's magnetosphere, the innermost layers being the ionosp... [more] Ionization of the Earth's atmosphere by sunlight forms a complex, multilayered plasma environment within the Earth's magnetosphere, the innermost layers being the ionosphere and plasmasphere. The plasmasphere is believed to be embedded with cylindrical density structures (ducts) aligned along the Earth's magnetic field, but direct evidence for these remains scarce. Here we report the first direct wide-angle observation of an extensive array of field-aligned ducts bridging the upper ionosphere and inner plasmasphere, using a novel ground-based imaging technique. We establish their heights and motions by feature tracking and parallax analysis. The structures are strikingly organized, appearing as regularly spaced, alternating tubes of overdensities and underdensities strongly aligned with the Earth's magnetic field. These findings represent the first direct visual evidence for the existence of such structures.
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2015 |
Obana Y, Waters CL, Sciffer MD, Menk FW, Lysak RL, Shiokawa K, et al., 'Resonance structure and mode transition of quarter-wave ULF pulsations around the dawn terminator', Journal of Geophysical Research A: Space Physics, (2015) [C1] © 2015 American Geophysical Union. Quarter-wave modes are standing shear Alfvén waves supported along geomagnetic field lines in space. They are predicted to be generated when the... [more] © 2015 American Geophysical Union. Quarter-wave modes are standing shear Alfvén waves supported along geomagnetic field lines in space. They are predicted to be generated when the ionosphere has very different conductance between the north compared with the south ionosphere. Our previous observation reported that the resonant frequency is sometimes very low around the dawn terminator and suggested these were due to quarter-wave modes. In this paper, we examine the resonance structure that provides further evidence of the presence of quarter-wave modes. Data from three magnetometers in New Zealand were analyzed. Four events are discussed which show extraordinarily low eigenfrequencies, wide resonance widths, and strong damping when the ionosphere above New Zealand was in darkness while the conjugate northern hemisphere ionosphere was sunlit. Later in the morning, the eigenfrequencies and resonance widths changed to normal daytime values. The wide resonance width and the strong damping of the quarter-wave modes arise from strong energy dissipation in the dark side ionosphere. One event exhibited field line resonance structure continuously through a transition from very low frequency to the normal daytime values. The frequency change began when the dawn terminator passed over New Zealand and finished 1h later when the ratio of the interhemispheric ionospheric conductances decreased and reached ~5. These observations are strong evidence of the presence of quarter-wave modes and mode conversion from quarter- to half-wave resonances. These experimental results were compared with the ULF wave fields obtained from a 2.5-dimensional simulation model.
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2014 |
Menk F, Kale Z, Sciffer M, Robinson P, Waters C, Grew R, et al., 'Remote sensing the plasmasphere, plasmapause, plumes and other features using ground-based magnetometers', Journal of Space Weather and Space Climate, 4 (2014) [C1] The plasmapause is a highly dynamic boundary between different magnetospheric particle populations and convection regimes. Some of the most important space weather processes invol... [more] The plasmapause is a highly dynamic boundary between different magnetospheric particle populations and convection regimes. Some of the most important space weather processes involve wave-particle interactions in this region, but wave properties may also be used to remote sense the plasmasphere and plasmapause, contributing to plasmasphere models. This paper discusses the use of existing ground magnetometer arrays for such remote sensing. Using case studies we illustrate measurement of plasmapause location, shape and movement during storms; refilling of flux tubes within and outside the plasmasphere; storm-time increase in heavy ion concentration near the plasmapause; and detection and mapping of density irregularities near the plasmapause, including drainage plumes, biteouts and bulges. We also use a 2D MHD model of wave propagation through the magnetosphere, incorporating a realistic ionosphere boundary and Alfvén speed profile, to simulate ground array observations of power and cross-phase spectra, hence confirming the signatures of plumes and other density structures.
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2014 |
Ogburn DX, Waters CL, Sciffer MD, Hogan JA, Abbott PC, 'A finite difference construction of the spheroidal wave functions', COMPUTER PHYSICS COMMUNICATIONS, 185 244-253 (2014) [C1]
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2014 |
Anderson BJ, Korth H, Waters CL, Green DL, Merkin VG, Barnes RJ, Dyrud LP, 'Development of large-scale Birkeland currents determined from the Active Magnetosphere and Planetary Electrodynamics Response Experiment', Geophysical Research Letters, 41 3017-3025 (2014) [C1] The Active Magnetosphere and Planetary Electrodynamics Response Experiment uses magnetic field data from the Iridium constellation to derive the global Birkeland current distribut... [more] The Active Magnetosphere and Planetary Electrodynamics Response Experiment uses magnetic field data from the Iridium constellation to derive the global Birkeland current distribution every 10 min. We examine cases in which the interplanetary magnetic field (IMF) rotated from northward to southward resulting in onsets of the Birkeland currents. Dayside Region 1/2 currents, totaling ~25% of the final current, appear within 20 min of the IMF southward turning and remain steady. Onset of nightside currents occurs 40 to 70 min after the dayside currents appear. Thereafter, the currents intensify at dawn, dusk, and on the dayside, yielding a fully formed Region 1/2 system ~30 min after the nightside onset. The results imply that the dayside Birkeland currents are driven by magnetopause reconnection, and the remainder of the system forms as magnetospheric return flows start and progress sunward, ultimately closing the Dungey convection cycle. Key Points Dayside currents, both Regions 1 and 2, form promptly with solar wind forcing The onset of nightside currents, Regions 1 and 2, coincides with substorm onset Most of the current system develops from the nightside after onset © 2014. American Geophysical Union. All Rights Reserved.
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2014 |
Currie JL, Waters CL, 'On the use of geomagnetic indices and ULF waves for earthquake precursor signatures', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 119 992-1003 (2014) [C1]
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2014 |
Korth H, Zhang Y, Anderson BJ, Sotirelis T, Waters CL, 'Statistical relationship between large-scale upward field-aligned currents and electron precipitation', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 119 (2014) [C1]
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2013 |
Ponomarenko PV, Waters CL, 'Transition of Pi2 ULF wave polarization structure from the ionosphere to the ground', GEOPHYSICAL RESEARCH LETTERS, 40 1474-1478 (2013) [C1]
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2013 |
Murphy KR, Mann IR, Rae IJ, Waters CL, Frey HU, Kale A, et al., 'The detailed spatial structure of field-aligned currents comprising the substorm current wedge', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 118 7714-7727 (2013) [C1]
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2013 |
Lysak RL, Waters CL, Sciffer MD, 'Modeling of the ionospheric Alfven resonator in dipolar geometry', Journal of Geophysical Research: Space Physics, 118 1514-1528 (2013) [C1]
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2013 |
Waters CL, Lysak RL, Sciffer MD, 'On the coupling of fast and shear Alfven wave modes by the ionospheric Hall conductance', Earth Planets and Space, 65 385-396 (2013) [C1]
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2013 |
Marshall RA, Gorniak H, Van der Walt T, Waters CL, Sciffer MD, Miller M, et al., 'Observations of geomagnetically induced currents in the Australian power network', Space Weather, 11 6-16 (2013) [C1]
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2012 |
Murphy KR, Mann IR, Rae IJ, Waters CL, Anderson BJ, Milling DK, et al., 'Reduction in field-aligned currents preceding and local to auroral substorm onset', Geophysical Research Letters, 39 1-6 (2012) [C1]
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2012 |
Piersanti M, Villante U, Waters CL, Coco I, 'The 8 June 2000 ULF wave activity: A case study', Journal of Geophysical Research-Space Physics, 117 A02204 (2012) [C1]
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2012 |
Marshall RA, Dalzell M, Waters CL, Goldthorpe P, Smith EA, 'Geomagnetically induced currents in the New Zealand power network', Space Weather, 10 S08003 (2012) [C1]
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2011 |
Marshall RA, Smith EA, Francis MJ, Waters CL, Sciffer MD, 'A preliminary risk assessment of the Australian region power network to space weather', Space Weather, 9 S10004 (2011) [C1]
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2011 |
Sciffer MD, Waters CL, 'Relationship between ULF wave mode mix, equatorial electric fields, and ground magnetometer data', Journal of Geophysical Research-Space Physics, 116 1-11 (2011) [C1]
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2010 |
Marshall RA, Waters CL, Sciffer MD, 'Spectral analysis of pipe-to-soil potentials with variations of the Earth's magnetic field in the Australian region', Space Weather - The International Journal of Research and Applications, 8 1-13 (2010) [C1]
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2010 |
Ponomarenko P, Waters CL, St-Maurice JP, 'Upstream Pc3-4 waves: Experimental evidence of propagation to the nightside plasmapause/plasmatrough', Geophysical Research Letters, 37 1-6 (2010) [C1]
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2010 |
Loto'Aniu TM, Singer HJ, Waters CL, Angelopoulos V, Mann IR, Elkington SR, Bonnell JW, 'Relativistic electron loss due to ultralow frequency waves and enhanced outward radial diffusion', Journal of Geophysical Research-Space Physics, 115 A12245 (2010) [C1]
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2010 |
Korth H, Anderson BJ, Waters CL, 'Statistical analysis of the dependence of large-scale Birkeland currents on solar wind parameters', Annales Geophysicae, 28 515-530 (2010) [C1]
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2010 |
Borderick JD, Yeoman TK, Waters CL, Wright DM, 'Observations and modelling of the wave mode evolution of an impulse-driven 3 mHz ULF wave', Annales Geophysicae, 28 1723-1735 (2010) [C1]
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2009 |
Kale ZC, Mann IR, Waters CL, Vellante M, Zhang TL, Honary F, 'Plasmaspheric dynamics resulting from the Hallowe'en 2003 geomagnetic storms', Journal of Geophysical Research: Space Physics, 114 1-14 (2009) [C1]
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2009 |
Waters CL, Cox S, 'ULF wave effects on high frequency signal propagation through the ionosphere', Annales Geophysicae, 27 2779-2788 (2009) [C1]
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2009 |
Green DL, Waters CL, Anderson BJ, Korth H, 'Seasonal and interplanetary magnetic field dependence of the field-aligned currents for both Northern and Southern Hemispheres', Annales Geophysicae, 27 1701-1715 (2009) [C1]
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2009 |
Ponomarenko P, St-Maurice JP, Waters CL, Gillies RG, Koustov AV, 'Refractive index effects on the scatter volume location and Doppler velocity estimates of ionospheric HF backscatter echoes', Annales Geophysicae, 27 4207-4219 (2009) [C1]
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2009 |
Loto'Aniu TM, Fraser BJ, Waters CL, 'The modulation of electromagnetic ion cyclotron waves by Pc5 ULF waves', Annales Geophysicae, 27 121-130 (2009) [C1]
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2008 |
Fenrich FR, Waters CL, 'Phase coherence analysis of a field line resonance and solar wind oscillation', Geophysical Research Letters, 35 L20102 (2008) [C1]
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2008 |
Waters CL, Sciffer MD, 'Field line resonant frequencies and ionospheric conductance: Results from a 2-D MHD model', Journal of Geophysical Research-Space Physics, 113 A05219 (2008) [C1]
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2008 |
Obana Y, Menk FW, Sciffer MD, Waters CL, 'Quarter-wave modes of standing Alfven waves detected by cross-phase analysis', Journal of Geophysical Research-Space Physics, 113 A08203 (2008) [C1]
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2008 |
Korth H, Anderson BJ, Ruohoniemi JM, Frey HU, Waters CL, Immel TJ, Green DL, 'Global observations of electromagnetic and particle energy flux for an event during northern winter with southward interplanetary magnetic field', Annales Geophysicae, 26 1415-1430 (2008) [C1]
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2008 |
Ponomarenko P, Waters CL, Menk FW, 'Effects of mixed scatter on SuperDARN convection maps', Annales Geophysicae, 26 1517-1523 (2008) [C1]
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2008 |
Anderson BJ, Korth R, Waters CL, Green DL, Stauning P, 'Statistical Birkeland current distributions from magnetic field observations by the Iridium constellation', Annales Geophysicae, 26 671-687 (2008) [C1]
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2007 |
Parkinson ML, Wild JA, Waters CL, Lester M, Lucek EA, Dcau PME, 'An auroral westward flow channel (AWFC) and its relationship to field-aligned current, ring current, and plasmapause location determined using multiple spacecraft observations', Annales Geophysicae, 25 59-76 (2007) [C1]
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2007 |
Ponomarenko P, Waters CL, Menk FW, 'Factors determining spectral width of HF echoes from high latitudes', Annales Geophysicae, 25 675-687 (2007) [C1]
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2007 |
Waters CL, Yeoman TK, Sciffer MD, Ponomarenko P, Wright DM, 'Modulation of radio frequency signals by ULF waves', Annales Geophysicae, 25 1113-1124 (2007) [C1]
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2007 |
Waters CL, Kabin K, Rankin R, Donovan E, Samson JC, 'Effects of the magnetic field model and wave polarisation on the estimation of proton number densities in the magnetosphere using field line resonances', Planetary and Space Science, 55 809-819 (2007) [C1]
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2007 |
Kabin K, Rankin R, Waters CL, Marchand R, Donovan EF, Samson JC, 'Different eigenproblem models for field line resonances in cold plasma: Effect on magnetospheric density estimates', Planetary and Space Science, 55 820-828 (2007) [C1]
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2007 |
Menk FW, Waters CL, Dunlop IS, 'ULF Doppler oscillations in the low latitude ionosphere', Geophysical Research Letters, 34 (2007) [C1]
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2007 |
Gjerloev JW, Greenwald RA, Waters CL, Takahashi K, Sibeck D, Oksavik K, et al., 'Observations of Pi2 pulsations by the Wallops HF radar in association with substorm expansion', Geophysical Research Letters, 34 (2007) [C1]
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2007 |
Green DL, Waters CL, Korth H, Anderson BJ, Ridley AJ, Barnes RJ, 'Technique: Large-scale ionospheric conductance estimated from combined satellite and ground-based electromagnetic data', Journal of Geophysical Research - Space Physics, 112 1-10 (2007) [C1]
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2007 |
Kale ZC, Mann IR, Waters CL, Goldstein J, Menk FW, Ozeke LG, 'Ground magnetometer observation of a cross-phase reversal at a steep plasmapause', Journal of Geophysical Research-Space Physics, 112 (2007) [C1]
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2006 |
Ponomarenko P, Waters CL, 'Spectral width of SuperDARN echoes: measurement, use and physical interpretation', Annales Geophysicae, 24 115-128 (2006) [C1]
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2006 |
Green DL, Waters CL, Anderson BJ, Korth H, Barnes RJ, 'Comparison of large-scale Birkeland currents determined from iridium and SuperDARN data', Annales Geophysicae, 24 941-959 (2006) [C1]
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2005 |
Wild JA, Yeoman TK, Waters CL, 'Revised time-of-flight calculations for high-latitude geomagnetic pulsations using a realistic magnetospheric magnetic field model', Journal of Geophysical Research-Space Physics, 110 (2005) [C1]
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2005 |
Lotoaniu T, Fraser BJ, Waters CL, 'Propagation of electromagnetic ion cyclotron wave energy in the magnetosphere', Journal of Geophysical Research-Space Physics, 110 (2005) [C1]
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2005 |
Korth H, Anderson BJ, Frey HU, Waters CL, 'High-latitude electromagnetic and particle energy flux during an event with sustained strongly northward IMF', Annales Geophysicae, 23 1295-1310 (2005) [C1]
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2005 |
Ponomarenko P, Menk FW, Waters CL, Sciffer MD, 'Pc3-4 ULF waves observed by the SuperDARN TIGER radar', Annales Geophysicae, 23 1271-1280 (2005) [C1]
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2005 |
Sciffer MD, Waters CL, Menk FW, 'A numerical model to investigate the polarisation azimuth of ULF waves through an ionosphere with oblique magnetic fields', Annales Geophysicae, 23 3457-3471 (2005) [C1]
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2004 |
Menk FW, Mann IR, Smith AJ, Waters CL, Clilverd MA, Milling DK, 'Monitoring the plasmapause using geomagnetic field line resonances', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 109 Art # A04216 (2004) [C1]
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2004 |
Sciffer MD, Waters CL, Menk FW, 'Propagation of ULF waves through the ionosphere: Inductive effect for oblique magnetic fields', ANNALES GEOPHYSICAE, 22 1155-1169 (2004) [C1]
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2004 |
Waters CL, Anderson BJ, Greenwald RA, Barnes RJ, Ruohoniemi JM, 'High-latitude poynting flux from combined Iridium and SuperDARN data', ANNALES GEOPHYSICAE, 22 2861-2875 (2004) [C1]
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2003 |
Ponomarenko P, Waters CL, 'The role of Pc1-2 waves in spectral broadening of SuperDARN echoes from high latitudes', Geophysical Research Letters, 30 (2003) [C1]
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2003 |
Ponomarenko P, Menk FW, Waters CL, 'Visualization of ULF waves in SuperDARN data', Geophysical Research Letters, 30 381-399 (2003) [C1]
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2003 |
Parkinson ML, Devlin JC, Waters CL, Dyson PL, Breed B, Morris RJ, 'On the occurrence and motion of decametre-scale irregularities in the sub-auroral, auroral, and polar cap ionosphere', Annales Geophysicae, 21 (2003) [C1]
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2002 |
Anderson BJ, Takahashi K, Kamei T, Waters CL, Toth BA, 'Birkeland current system key parameters derived from Iridium observations: Method and initial validation results', Journal of Geophysical Research, 107 1-13 (2002) [C1]
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2002 |
Sciffer MD, Waters CL, 'Propagation of ULF waves through the ionosphere: Analytic solutions for oblique magnetic fields', Journal of Geophysical Research, 107 1-14 (2002) [C1]
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2002 |
Waters CL, Takahashi K, Lee DH, Anderson BJ, 'Detection of ultralow-frequency cavity modes using spacecraft data', Journal of Geophysical Research, 107 1-16 (2002) [C1]
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Nova | |||||||||
2001 |
Waters CL, Anderson BJ, Liou K, 'Estimation of Global Field Aligned Currents Using the Iridium System Magnetometer Data', Geophysical Research Letters, 28(11) 2165 (2001) [C1]
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Nova | |||||||||
2001 |
Ponomarenko P, Waters CL, Sciffer MD, Fraser BJ, Samson JC, 'Spatial Structure of ULF Waves: Comparison of Magnetometer and Super Dual Auroral Radar Network Data', Journal of Geophysical Research, 106 10509-10517 (2001) [C1]
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2001 |
Waters CL, Sciffer MD, Fraser BJ, Brand K, Foulkes KM, Menk FW, et al., 'The phase structure of very low latitude ULF waves across dawn', Journal of Geophysical Research, 106 15599 (2001) [C1]
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Nova | |||||||||
2000 |
Menk FW, Waters CL, Fraser BJ, 'Field line resonances and waveguide modes at low latitudes; 1. Observations', J. Geophys. Res., 105 7747-7761 (2000) [C1]
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2000 |
Waters CL, Harrold BG, Menk FW, Samson JC, Fraser BJ, 'Field line resonances and waveguide modes at low latitudes; 2. A model', J. Geophys. Res., 105 7763-7774 (2000) [C1]
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2000 |
Fraser BJ, Russell CT, Means JD, Menk FW, Waters CL, 'FedSat, an Australian research microsatellite', Advances in Space Research, 25 1325-1336 (2000) [C1]
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2000 |
Neudegg DA, Fraser BJ, Menk FW, Waters CL, Burns GB, Morris RJ, 'ULF wave attenuation in the high lattitude ionospheric waveguide', Advances in Space Research, 25 (7-8) 1559-1565 (2000) [C1]
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2000 |
Waters CL, 'ULF resonance structure in the magnetosphere', Advances in Space Research, 25 (7-8) 1541-1558 (2000) [C1]
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1999 |
Lotoaniu T, Waters CL, Fraser BJ, Samson JC, 'Plasma Mass Density in the Plasmatrough: Comparison Using ULF Waves and CRRES', Geophysical Research Letters, 26 3277-3280 (1999) [C1]
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1999 |
Ohtani S, Rostoker G, Takahashi K, Angelopoulos V, Nakamura M, Waters C, et al., 'Coordinated ISTP satellite and ground observations of morningside Pc5 waves', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 104 2381-2397 (1999)
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1999 |
Price IA, Waters CL, Menk FW, Bailey GJ, Fraser BJ, 'A technique to investigate plasma mass density in the topside ionosphere using ULF waves', Journal of Geophysical Research, 104 12723-12735 (1999) [C1]
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1999 |
Menk FW, Orr D, Clilverd MA, Smith AJ, Waters CL, Fraser BJ, 'Monitoring spatial and temporal variations in the dayside plasmasphere using geomagnetic field line resonances', Journal of Geophysical Research, 104 19955-19970 (1999) [C1]
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1998 |
Ables ST, Fraser BJ, Waters CL, Neudegg DA, Morris RJ, 'Monitoring cusp/cleft topology using Pc5 ULF waves', Geophysical Research Letters, 25 1507-1510 (1998) [C1]
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Nova | |||||||||
Show 104 more journal articles |
Conference (214 outputs)
Year | Citation | Altmetrics | Link | |||||
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2020 |
Barnett RL, Green DL, Lore JD, Smithe DN, Myra JR, Waters CL, 'A 1D coupled transport / cold plasma wave model for parallel ponderomotive density modification near RF actuators', 23rd Topical Conference on Radiofrequency Power in Plasmas. AIP Conference Proceedings, Hefei, China (2020) [E1]
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Nova | ||||||
2017 |
Jones DH, Burgess C, Irwin JA, Sciffer M, Vazquez J, Waters C, 'Building success upon student's decision to reengage with science as adult learners.', Building success upon student's decision to reengage with science as adult learners., SCU, Gold Coast (2017)
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2015 |
Loi ST, Murphy T, Cairns IH, Trott CM, Bell ME, Hurley-Walker N, et al., 'Waves in the sky: Probing the ionosphere with the Murchison Widefield Array', 2015 1st URSI Atlantic Radio Science Conference, URSI AT-RASC 2015 (2015) [E3] Low-frequency, wide-field radio telescopes such as the Murchison Widefield Array (MWA) enable the dense spatial sampling of the ionosphere and plasmasphere on regional scales. For... [more] Low-frequency, wide-field radio telescopes such as the Murchison Widefield Array (MWA) enable the dense spatial sampling of the ionosphere and plasmasphere on regional scales. For a physically compact array such as the MWA, the refractive shifts in the positions of celestial sources in the synthesised radio images are proportional to spatial gradients in the total electron content (TEC) transverse to the line of sight. By measuring the angular position shifts of celestial radio sources, one can probe waves and disturbances in the intervening plasma. Radio telescopes differ fundamentally from other techniques for measuring plasma fluctuations in that they are sensitive to TEC gradients/differences rather than absolute TEC. This makes them sensitive specifically to fluctuations about the ambient density, and therefore powerful probes of plasma density waves and irregularities.
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2013 |
Burstinghaus EJ, Saha TK, Yumoto K, Marshall RA, Waters CL, 'The importance of non-uniform geoelectric fields in calculating GIC distributions', 2013 IEEE Power and Energy Society General Meeting, Vancouver, BC (2013) [E1]
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Nova | ||||||
2012 | Rae J, Murphy KR, Forsyth C, Walsh AP, Watt CE, Mann IR, et al., 'Global and local signatures of magnetosphere-ionosphere coupling during the growth and expansion phases of a substorm', Abstracts of the 2012 AGU Fall Meeting, San Francsisco, CA (2012) [E3] | |||||||
2012 | Murphy KR, Mann IR, Rae J, Waters CL, Anderson BJ, Korth H, et al., 'A multi-point and multi-instrument characterisation of the night-side field-aligned current topology associated with the substorm growth and expansion phases', Abstracts of the 2012 AGU Fall Meeting, San Francsisco, CA (2012) [E3] | |||||||
2012 |
Lysak RL, Song Y, Sciffer MD, Waters CL, Sciffer GD, 'Propagation of Pi2 pulsations in the inner magnetosphere', Abstracts of the 2012 AGU Fall Meeting, San Francisco, CA (2012) [E3]
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2011 |
Waters CL, Sciffer MD, Robinson PJ, Menk FW, Mann I, 'Remote sensing plasma mass density in the vicinity of the plasmapause using ULF waves', Earth on the Edge - Science For A Sustainable Planet: IUGG XXV General Assembly Online Abstract Proceedings, Melbourne (2011) [E3]
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2011 |
Sciffer MD, Waters CL, Lysak R, 'On the use of absorbing boundaries in modeling ULF waves in the magnetosphere', Earth on the Edge - Science For A Sustainable Planet: IUGG XXV General Assembly Online Abstract Proceedings, Melbourne (2011) [E3]
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2011 |
Sciffer MD, Waters CL, 'Relating ULF wave equatorial electric and ground magnetic fields', Earth on the Edge - Science For A Sustainable Planet: IUGG XXV General Assembly Online Abstract Proceedings, Melbourne (2011) [E3]
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2011 | Ponomarenko P, Waters CL, St-Maurice JP, 'Observation of upstream Pc3-4 ULF waves near the nightside palasmapause', Earth on the Edge - Science For A Sustainable Planet: IUGG XXV General Assembly Online Abstract Proceedings, Melbourne (2011) [E3] | |||||||
2011 |
Obana Y, Yoshikawa I, Menk FW, Waters CL, Sciffer MD, Yoshikawa A, et al., 'A study of latitudinal distribution of quarter-wave ULF pulsations', Earth on the Edge - Science For A Sustainable Planet: IUGG XXV General Assembly Online Abstract Proceedings, Melbourne (2011) [E3]
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2011 |
Norouzi Sedeh L, Waters CL, Ponomarenko P, Sciffer MD, 'ULF wave propogation influences on Ionospheric doppler velocity variation modeling', Earth on the Edge - Science For A Sustainable Planet: IUGG XXV General Assembly Online Abstract Proceedings, Melbourne (2011) [E3]
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2011 | Anderson BJ, Dyrud LP, Korth H, Waters CL, Green DL, Barnes RJ, 'A case study in leveraging major science at low cost: development of Large Scale Birkeland currents determined from AMPERE', Abstracts. American Geophysical Union Fall Meeting 2011, San Francisco, California (2011) [E3] | |||||||
2011 |
Lysak RL, Sciffer MD, Waters CL, 'Modeling the ionospheric Alfven resonator in a dipole geometry with a distributed ionosphere', Abstracts. American Geophysical Union Fall Meeting 2011, San Francisco, California (2011) [E3]
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2011 | Murphy KR, Mann IR, Rae J, Milling DK, Waters CL, Singer HJ, Anderson BJ, 'A multi-point and multi-instrument characterisation of the formation and evolution of the substorm current wedge', Abstracts. American Geophysical Union Fall Meeting 2011, San Francisco, California (2011) [E3] | |||||||
2011 |
Piersanti M, Villante U, Waters CL, Coco I, 'The June 8, 2000 ULF wave activity: A case study', Abstracts. American Geophysical Union Fall Meeting 2011, San Francisco, California (2011) [E3]
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2010 |
Smith E, Marshall R, Waters CL, Sciffer MD, 'A risk assessment of space weather effects on the Australian Power Network', 10th Australian Science Conference. Programme and Abstracts, Brisbane, QLD (2010) [E3]
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2010 | Norouzi Sedeh L, Waters CL, 'Properties of ULF waves observed by TIGER SuperDARN radars', 10th Australian Science Conference. Programme and Abstracts, Brisbane, QLD (2010) [E3] | |||||||
2010 |
Obana Y, Yoshikawa I, Menk FW, Waters CL, Sciffer MD, Yoshikawa A, et al., 'Multipoint observation of quarter-wave length, standing Alfven modes', 2010 AGU Fall Meeting. Program and Abstracts, San Francisco, CA (2010) [E3]
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2010 | Korth H, Dyrud L, Anderson B, Waters CL, Barnes RJ, 'AMPERE science data reduction and processing', 2010 AGU Fall Meeting. Program and Abstracts, San Francisco, CA (2010) [E3] | |||||||
2010 | Anderson BJ, Gjerloev JW, Waters CL, Korth H, Dyrud LP, Barnes RJ, 'Night-time transient Birkeland currents observed by AMPERE', 2010 AGU Fall Meeting. Program and Abstracts, San Francisco, CA (2010) [E3] | |||||||
2010 | Anderson B, Rock K, Dyrud LP, Korth H, Waters CL, Green DL, Barnes RJ, 'AMPERE project implementation overview and initial results (Invited)', 2010 AGU Fall Meeting. Program and Abstracts, San Francisco, CA (2010) [E3] | |||||||
2010 | Waters CL, Norouzi Sedeh L, 'Temporal and spatial ULF wave observations by SuperDARN radar', 2010 AGU Fall Meeting. Program and Abstracts, San Francisco, CA (2010) [E3] | |||||||
2010 |
Obana Y, Menk FW, Waters CL, Sciffer MD, Yoshikawa A, Yoshikawa I, et al., 'Quarter-wave modes of standing Alfvn waves detected by cross-phase analysis: Latitudinal distribution', 2010 Western Pacific Geophysics Meeting. Abstracts, Taipei, Taiwan (2010) [E3]
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2010 | Waters CL, 'ULF waves and the Ionosphere: Modeling and experimental aspects', 2010 Western Pacific Geophysics Meeting. Abstracts, Taipei, Taiwan (2010) [E3] | |||||||
2010 | Waters CL, Devlin J, Makarevich R, 'Research using Over-the-Horizon HF radars: The Australian connection', 19th Australian Institute of Physics Congress. Extended Abstracts and Refereed Full Papers, Melbourne, Vic (2010) [E3] | |||||||
2010 |
Sciffer MD, Waters CL, Lysak R, 'Estimating equatorial ultra low frequency wave electric fields from the ground', 19th Australian Institute of Physics Congress. Extended Abstracts and Refereed Full Papers, Melbourne, Vic (2010) [E3]
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2010 |
Sciffer MD, Ables ST, Waters CL, Inness EK, Fraser BJ, 'The effects of geomagnetic field line curvature and torsion on resonant frequencies at high latitudes', Proceedings of the 9th Australian Space Science Conference, Sydney, NSW (2010) [E1]
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Nova | ||||||
2010 |
Waters CL, Sciffer MD, Lysak RL, 'FDTD modeling of ULF waves in the magnetosphere and ionosphere', Proceedings of the 2010 International Conference on Electromagnetics in Advanced Applications, ICEAA'10, Sydney, Australia (2010) [E1]
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Nova | ||||||
2009 | Anderson BJ, Korth H, Waters CL, 'Advances in derivation of Birkeland currents from iridium: Initial results from AMPERE development', IAGA 2009 Programme, Sopron, Hungary (2009) [E3] | |||||||
2009 |
Marshall R, Patterson G, Kennewell J, Waters CL, Sciffer MD, 'Development and application of geomagnetic indices at the Australian Space Forecast Center', IAGA 2009 Programme, Sopron, Hungary (2009) [E3]
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2009 |
Sciffer MD, Waters CL, Ables ST, Inness EK, Fraser BJ, 'Geomagnetic topological effects on high latitude field line resonances', IAGA 2009 Programme, Sopron, Hungary (2009) [E3]
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2009 | Waters CL, 'Applications of ULF waves as diagnostics of the magnetosphere and effects in the ionosphere', IAGA 2009 Programme, Sopron, Hungary (2009) [E3] | |||||||
2009 |
Sciffer MD, Ables ST, Waters CL, Fraser BJ, 'The longitudinal effects of geomagnetic field line curvature and torsion on resonant frequencies near the open-closed boundary', Presenters, Abstracts, and Papers: 9th Australian Space Science Conference, Sydney, NSW (2009) [E3]
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2009 | Sedeh LN, Waters CL, 'Statistical properties of the ULF waves observed by TIGER SuperDARN radars', Presenters, Abstracts, and Papers: 9th Australian Space Science Conference, Sydney, NSW (2009) [E3] | |||||||
2009 | Dyrud LP, Anderson BJ, Korth H, Waters CL, 'Simultaneous comparison of Birkeland currents from the northern and southern hemispheres using the Iridium Constellation', EOS, Transactions American Geophysical Union, San Francisco, CA (2009) [E3] | |||||||
2009 |
Lysak RL, Song Y, Waters CL, Sciffer MD, 'Propagation of kinetic Alfven waves at the plasma sheet boundary layer', EOS, Transactions American Geophysical Union, San Francisco, CA (2009) [E3]
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2009 | Borderick JD, Yoeman TK, Waters CL, Wright DM, 'ULF wave propagation: Observations and modelling', SuperDARN 2009 Workshop Proceedings: Book of Abstracts, Cargese, Corsica (2009) [E3] | |||||||
2009 | Ponomarenko P, Gillies RG, St-Maurice J-P, Waters CL, Koustov AV, 'Refractive index and SuperDARN velocity distortions: Latest development', SuperDARN 2009 Workshop Proceedings: Book of Abstracts, Cargese, Corsica (2009) [E3] | |||||||
2009 |
Ponomarenko P, Waters CL, Sciffer MD, Menk FW, 'Nighttime ULF activity near the plasmapause observed by TIGER and Unwin radars', SuperDARN 2009 Workshop Proceedings: Book of Abstracts, Cargese, Corsica (2009) [E3]
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2009 | Waters CL, Anderson BJ, Talaat E, 'Variation of convection and Birkeland current patters with IMF and season', SuperDARN 2009 Workshop Proceedings: Book of Abstracts, Cargese, Corsica (2009) [E3] | |||||||
2008 |
Ponomarenko P, Waters CL, Menk FW, 'ULF wave monitoring by super dual auroral radar network', Australian Institute of Physics (AIP) 18th National Congress incorporating the 27th AINSE Plasma Science Conference: Program & Abstract Book, Adelaide, SA (2008) [E3]
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2008 |
Fraser BJ, Morley SK, Menk FW, Waters CL, Sciffer MD, Ponomarenko P, Ables ST, 'University of Newcastle: Activities in space research', Australian Institute of Physics (AIP) 18th National Congress incorporating the 27th AINSE Plasma Science Conference: Program & Abstract Book, Adelaide, SA (2008) [E3]
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2008 |
Ford MS, Waters CL, Menk FW, 'A ULF wave model to study the earth's magnetopause boundary', Australian Institute of Physics (AIP) 18th National Congress incorporating the 27th AINSE Plasma Science Conference: Program & Abstract Book, Adelaide, SA (2008) [E3]
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2008 | Cotton DV, Tran NM, Waters CL, 'Sunspot number, Southern Oscillation Index and their correlation to rainfall: Sydney, a case study', Australian Institute of Physics (AIP) 18th National Congress incorporating the 27th AINSE Plasma Science Conference: Program & Abstract Book, Adelaide, SA (2008) [E3] | |||||||
2008 |
Fraser BJ, Morley SK, Menk FW, Waters CL, Sciffer MD, Ponomarenko P, Ables ST, 'Space physics research at the University of Newcastle', Presenters, Abstracts, and Papers: 8th Australian Space Science Conference, Canberra, ACT (2008) [E3]
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2008 | Cotton DV, Tran NM, Waters CL, 'Wolf number, the Southern Oscillation Index and their correlation to rainfall in Sydney', Proceedings of the 7th Australian Space Science Conference, Sydney, NSW (2008) [E1] | Nova | ||||||
2008 | Green DL, Waters CL, Korth H, Anderson BJ, 'Validation of southern hemisphere field-aligned currents calculated from iridium magnetic field data', Proceedings of the 7th Australian Space Science Conference, Sydney, NSW (2008) [E1] | Nova | ||||||
2008 |
Sciffer MD, Waters CL, 'Results from a MHD model of ultra low frequency waves in the magnetosphere with realistic ionospheric conductances', Proceedings of the 7th Australian Space Science Conference, Sydney, NSW (2008) [E1]
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Nova | ||||||
2008 |
Menk FW, Waters CL, 'ULF doppler oscillations in the low latitude ionosphere', 5th Annual Meeting AOGS 2008, Busan, Korea (2008) [E3]
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2008 |
Sciffer MD, Waters CL, Green DL, 'ULF wave mode coupling by the ionosphere: Results from a MHD model', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 |
Ponomarenko P, Waters CL, Menk FW, 'Observation of Pc4-5 ULF waves in vincinity of the evening plasmapause by TIGER/Unwin Pair of SuperDARN Radars', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 |
Menk FW, Obana Y, Sciffer MD, Waters CL, 'Observations and modelling of quater-wavelength mode standing Alfven waves', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 |
Ford MS, Waters CL, Menk FW, 'A ULF wave model with realistic magnetopause boundary', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 | Green DL, Waters CL, Korth H, Anderson BJ, 'Ionosphere conductance control of the average field-aligned current distributions for winter hemispheres', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3] | |||||||
2008 |
Green DL, Waters CL, Sciffer MD, 'ULF wave propagation in near-earth space: Initial results from a 3-D ideal MHD simulation', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 |
Marshall RA, Waters CL, Sciffer MD, 'Spectral analysis of pipe-to-soil potentials with variations of the geomagnetic field in the Australian region', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 | Waters CL, Cox S, 'Ionosphere electron perturbation effects due to ULF waves on the Square Kilometre Array Radio Telescope', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3] | |||||||
2008 |
Ables ST, Sciffer MD, Inness EK, Fraser BJ, Waters CL, 'ULF wave Eigenfrequencies of distorted geomagnetic field lines', EOS, Transactions American Geophysical Union, Cairns, QLD (2008) [E3]
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2008 |
Sciffer MD, Ables ST, Waters CL, Inness EK, Fraser BJ, 'The effects of geomagnetic field line geometry on resonant frequencies near the open-closed boundary', EOS, Transactions American Geophysical Union, San Francisco, CA (2008) [E3]
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2007 |
Sciffer MD, Waters CL, 'A model for studying the effect of ionospheric conductivity on the location of geomagnetic field line resonances', 8th International School/Symposium for Space Simulations. Abstracts, Kauai, Hawaii (2007) [E3]
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2007 | Fenrich FR, Waters CL, 'Cross-phase investigation of a field line resonance and a discrete continuous oscillation in the solar wind', AGU 2007 Fall Meeting. Program & Abstracts, San Francisco, CA (2007) [E3] | |||||||
2007 | Waters CL, Anderson BJ, 'Conducting space science using commercial satellite data', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3] | |||||||
2007 |
Sciffer MD, Waters CL, '2-D model results of ionospheric conductance effects on magnetospheric frequencies', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3]
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2007 | Ponomarenko P, Waters CL, 'Mixed scatter in SuperDARN data', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3] | |||||||
2007 |
Obana Y, Menk FW, Waters CL, Sciffer MD, 'Quarter waves in the dawn terminators at L~3', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3]
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2007 | Green DL, Waters CL, Anderson BJ, 'Improving the Iridium Birkeland current database for more reliable Southern hemisphere studies', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3] | |||||||
2007 |
Fraser BJ, Morley SK, Menk FW, Waters CL, Ponomarenko P, Sciffer MD, et al., 'Solar-terrestrial and space physics research at the University of Newcastle', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3]
|
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2007 | Cotton DV, Tran NM, Waters CL, 'Wolf number, the Southern Oscillation Index and their correlation to rainfall in Sydney', Australian Space Science Conference. Abstracts, Sydney, NSW (2007) [E3] | |||||||
2007 |
Obana Y, Menk FW, Waters CL, Sciffer MD, 'Quarter waves detected by cross-phase analysis', Earth: Our Changing Planet. Proceedings of IUGG XXIV General Assembly 2007, Perugia, Italy (2007) [E3]
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2007 |
Waters CL, Ponomarenko P, Sciffer MD, 'Cross-beam observations of ULF waves by TIGER (Tasmania and New Zealand) radars', SuperDarn Workshop 2007. Abstracts, Abashiri, Hokkaido, Japan (2007) [E3]
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2007 |
Ponomarenko P, Freeman MP, Waters CL, Menk FW, 'On the factors affecting ACF power decay', SuperDarn Workshop 2007. Abstracts, Abashiri, Hokkaido, Japan (2007) [E3]
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2006 | Anderson BJ, Korth H, Green DL, Waters CL, 'Global Measurement of Birkeland Currents with Iridium: How it Works and Future Prospects', Eos Trans. AGU, Fall Meet. Suppl., San Francisco, USA (2006) [E3] | |||||||
2006 | Green DL, Waters CL, Korth H, Anderson BJ, Ridley AJ, Barnes RJ, 'Large-Scale Ionospheric Conductance from Combined Satellite and Ground-Based Electromagnetic Data', Eos Trans. AGU, Fall Meet. Suppl., San Francisco, USA (2006) [E3] | |||||||
2006 |
Dent ZC, Menk FW, Mann IR, Waters CL, 'Ground-Based Magnetometer Observations of a Plasmaspheric Drainage Plume', Eos Trans. AGU, West. Pac. Geophys. Meet. Suppl., Beijing, China (2006) [E3]
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2006 | Kabin K, Rankin R, Marchand R, Waters CL, Samson JC, 'Magnetospheric density estimates from ground-based measurements of magnetic field disturbances', Eos Trans. AGU, West. Pac. Geophys. Meet. Suppl., Beijing, China (2006) [E3] | |||||||
2006 |
Waters CL, Sciffer MD, 'Magnetosphere-Ionosphere energy transfer by ULF waves', COSPAR Scientific Assembly 2006 Abstracts, Beijing, China (2006) [E3]
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2006 |
Ponomarenko P, Waters CL, Menk FW, 'SuperDARN spectral width, lifetime of ionospheric irregularities and particle precipitations', RiverPhys AIP Congress: Final Program & Abstract Book, Brisbane, Australia (2006) [E3]
|
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2006 |
Ables ST, Fraser BJ, Waters CL, 'Cusp latitude field line resonances: Two-dimensional cross-phase gradients and diurnal azimuth angle variation', RiverPhys AIP Congress: Final Program & Abstract Book, Brisbane, Australia (2006) [E3]
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2006 |
Menk FW, Waters CL, Dunlop IS, 'ULF wave fields measured in the low latitude ionosphere', RiverPhys AIP Congress: Final Program & Abstract Book, Brisbane, Australia (2006) [E3]
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2006 |
Sciffer MD, Waters CL, 'Energy deposition of ULF wave energy in the Magnetosphere-Ionosphere-Ground system', RiverPhys AIP Congress: Final Program & Abstract Book, Brisbane, Australia (2006) [E3]
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2006 |
Rogers LJ, Waters CL, Fraser BJ, 'Remote sensing the density of the inner Magnetosphere using field line resonance', RiverPhys AIP Congress: Final Program & Abstract Book, Brisbane, Australia (2006) [E3]
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2006 |
Ponomarenko P, Waters CL, Menk FW, 'High spectral width and lifetime of decameter ionospheric irregularities', SuperDARN 2006: Program & Abstracts, Chincoteague, USA (2006) [E3]
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2006 |
Ponomarenko P, Waters CL, Menk FW, 'Particle precipitation and SuperDARN spectral width: Anti-correlation or correlation?', SuperDARN 2006: Program & Abstracts, Chincoteague, USA (2006) [E3]
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2006 | Ponomarenko P, Waters CL, 'On the spectral width of HF echoes from high latitudes', Proceedings of the WARS2006 Conference, Leura, Australia (2006) [E3] | |||||||
2006 |
Sciffer MD, Waters CL, Menk FW, 'A Simple Model for the Deposition of ULF Wave Energy on the Ionosphere', Proceedings of the WARS2006 Conference, Leura, Australia (2006) [E3]
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2006 | Waters CL, Marshall RA, Hoogsteyns R, 'Telluric currents induced in a North Queensland gas pipeline by geomagnetic variations', Proceedings of the WARS2006 Conference, Leura, Australia (2006) [E3] | |||||||
2006 | Green DL, Waters CL, Gjerloev JW, 'The Use of Spherical Cap Harmonic Analysis in Predicting Ground Magnetic Perturbations from Ionospheric Electric Field and Conductance Models', RiverPhys AIP Congress Brisbane 2006: Refereed Papers, Brisbane, Australia (2006) [E1] | |||||||
2005 |
Waters CL, Sciffer MD, Yeoman TK, Ponomarenko P, 'Doppler Shifts in HF Signals due to ULF Plasma Waves in the Ionosphere', 16th National Congress of the Australian Institute of Physics : physics for the nation : congress proceedings, Canberra (2005) [E3]
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2005 |
Ponomarenko P, Menk FW, Waters CL, Fraser BJ, 'ULF Wave Studies Using SuperDARN TIGER Radar (Tasmania)', 16th National Congress of the Australian Institute of Physics : physics for the nation : congress proceedings, Canberra (2005) [E3]
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2005 | Green DL, Waters CL, Anderson BJ, Korth H, Barnes RJ, 'Comparison of Large-scale Field-aligned Currents Calculated from SuperDARN and Iridium', 16th National Congress of the Australian Institute of Physics : physics for the nation : congress proceedings, Canberra (2005) [E3] | |||||||
2005 |
Sciffer MD, Waters CL, Menk FW, 'A Numerical Model for the Propagation of ULF Waves Through an Ionosphere with an Oblique Magnetic Field', 16th National Congress of the Australian Institute of Physics : physics for the nation : congress proceedings, Canberra (2005) [E3]
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2005 |
Dunlop IS, Menk FW, Waters CL, 'ULF wave fields measured in the low latitude ionosphere', 2005 AGU Fall Meeting Abstracts, San Francisco (2005) [E3]
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2005 | Andersen BJ, Korth H, Ruohoniemi M, Barnes RJ, Takahashi K, Waters CL, et al., 'IMF Control of High Latitude Electromagnetic Energy Flux', 2005 AGU Fall Meeting Abstracts, San Francisco (2005) [E3] | |||||||
2005 | Korth H, Anderson B, Waters CL, Ruohoniemi M, Frey H, Immel T, et al., 'Comparison of Global Electromagnetic and Particle Energy Flux Distributions in the High-Latitude Ionosphere', 2005 AGU Fall Meeting Abstracts, San Francisco (2005) [E3] | |||||||
2005 |
Lysak RL, Song Y, Waters CL, Ponomarenko P, Sciffer MD, Menk FW, Fraser BJ, 'Numerical Modeling of Magnetosphere-Ionosphere Coupling in Dipole Geometry', AGU Chapman Conference on Magnetospheric ULF Waves, San Diego, California (2005) [E3]
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2005 |
Dent ZC, Mann IR, Waters CL, Clilverd MA, Menk FW, Ozeke LG, 'ULF Wave Remote Sensing Storm-Time Plasma Dynamics', AGU Chapman Conference on Magnetospheric ULF Waves, San Diego, California (2005) [E3]
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2005 |
Ponomarenko P, Waters CL, Menk FW, Sciffer MD, Fraser BJ, Lysak RL, 'Studies of ULF Wave Propagation in the Magnetosphere and Ionosphere Using the SuperDARN TIGER Radar', AGU Chapman Conference on Magnetospheric ULF Waves, San Diego, California (2005) [E3]
|
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2005 | Waters CL, Donovan EF, Samson JC, 'The Effects of the Magnetic Field and Wave Polarization in Determining Plasma Mass Densities Using ULF Waves', AGU Chapman Conference on Magnetospheric ULF Waves, San Diego, California (2005) [E3] | |||||||
2005 |
Waters CL, Sciffer MD, Menk FW, 'A Numerical Model for the Propagation of ULF Waves Through an Ionosphere with an Oblique Magnetic Field', AGU Chapman Conference on Magnetospheric ULF Waves, San Diego, California (2005) [E3]
|
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2005 |
Fraser BJ, Singer HJ, Ponomarenko P, Waters CL, 'ULF Waves in the Magnetosphere, Ionosphere and on the Ground', AGU Chapman Conference on Magnetospheric ULF Waves, San Diego, California (2005) [E3]
|
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2005 |
Menk FW, Fraser BJ, Waters CL, Terkildsen MB, Ritchie TR, Clifton-Smith MJ, 'Experiences with the NewMag Magnetometer Payload on FedSat', AOGS 2005 Abstracts, Singapore (2005) [E3]
|
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2005 |
Lysak RL, Song Y, Fraser BJ, Menk FW, Ponomarenko P, Sciffer MD, Waters CL, 'Modeling of ULF Waves in Dipole Geometry', IAGA 2005 Abstracts, Toulouse France (2005) [E3]
|
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2005 | Waters CL, Green DL, Anderson BJ, Barnes RJ, 'Do we need more magnetometers to understand magnetosphere-ionosphere coupling?', IAGA 2005 Abstracts, Toulouse France (2005) [E3] | |||||||
2005 |
Ponomarenko P, Menk FW, Waters CL, Fraser BJ, 'Studies of night-time narrow-band Pc4 ULF waves using TIGER radar', SuperDARN Workshop 2005, Cumbria UK (2005) [E3]
|
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2005 | Ponomarenko P, Waters CL, 'Large spectral width: FITACF artefact or reality?', SuperDARN Workshop 2005, Cumbria, UK (2005) [E3] | |||||||
2004 |
Ponomarenko P, Menk FW, Waters CL, 'Using Radars in Place of Magnetometers: Detection and Properties of Pc3-5 Wave Fields in HF Radar Data', Proceedings, San Francisco (2004) [E3]
|
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2004 | Waters CL, Ponomarenko P, Rogers L, 'Possible causes of large spectral width in SuperDARN echoes from high latitudes', CD Proceedings, Canada (2004) [E3] | |||||||
2004 |
Menk FW, Duck BC, Ponomarenko P, Waters CL, 'Propagation of ULF waves from the upstream solar wind into the magnetosphere', Proceedings, Hobart (2004) [E2]
|
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2004 |
Ponomarenko P, Menk FW, Waters CL, Fraser BJ, 'The Observation of ULF waves in SuperDARN Data', Proceedings, University of Colorado, Boulder, Colorado (2004) [E3]
|
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2004 |
Ponomarenko P, Waters CL, Menk FW, 'Observation of Pc3-4 ULF waves by SuperDARN TIGER radar', Proceedings, Canada (2004) [E3]
|
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2004 |
Fraser BJ, Menk FW, Waters CL, 'Satellite Observations of EMIC and ULF Waves in the Magnetosphere: Past Experience and Future Directions', Proceedings, Canada (2004) [E2]
|
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2003 | Anderson BJ, Korth H, Christiansen F, Waters CL, Papitashvilli VA, 'Intercomparison of Iridium Derived Magnetic Perturbation Maps with Oersted Observations', CD Program and Abstracts, Sapporo Japan (2003) [E3] | |||||||
2003 |
Fraser BJ, Menk FW, Waters CL, Bish AG, Russell CT, Means J, 'First Magnetometer Results from the Australian Micros-Satellite FedSat', CD Program and Abstracts, Sapporo Japan (2003) [E3]
|
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2003 |
Waters CL, Sciffer MD, Menk FW, 'Propagation of ULF Waves through the Ionosphere in the Presence of Oblique Magnetic Fields', CD Program and Abstracts, Sapporo Japan (2003) [E3]
|
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2003 |
Pokhotelov D, Lotko W, Menk FW, Waters CL, Streltsov A, 'Effects of the seasonal asymmetry in magnetospheric thermal density distribution and ionospheric conductance on the rate of energy deposition into auroral ionosphere', CD Program and Abstracts, San Francisco (2003) [E3]
|
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2003 |
Ponomarenko P, Waters CL, Menk FW, 'Observation of daytime Pc3-4 ULF waves near the plasmapause using SuperDARN TIGER radar', CD Program and Abstracts, San Francisco (2003) [E3]
|
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2003 |
Fraser BJ, Menk FW, Waters CL, Bish AG, Russell CT, Means J, 'First Results from the NewMag experiment onboard the Australian Micro-satellite FedSat', Proceedings of the 10th Australian International Aerospace Congress, Brisbane (2003) [E4]
|
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2003 |
Waters CL, Foster J, Samson JC, Fraser BJ, 'Remote Sensing Plasma Mass Densities in the Magnetosphere', Program and Abstracts, Adelaide (2003) [E3]
|
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2003 |
Fraser BJ, Waters CL, Menk FW, Ables ST, 'The Role of ULF Waves in Space Weather Studies', Plasma Physics, Sydney (2003) [E3]
|
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2003 |
Ponomarenko P, Fraser BJ, Waters CL, Terkildsen MB, Morris RJ, 'Experimental Study of ULK Waves using Closely-Spaced Magnetometer Array at Davis Antarctica', Programme and Abstracts, Adelaide (2003) [E3]
|
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2003 |
Fraser BJ, Menk FW, Waters CL, Bish AG, Russell CT, Means JD, 'First Results from the NewMag Experiment Onboard the Australian Micro-Satellite FedSat', Prpgramme and Abstracts, Adelaide (2003) [E3]
|
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2003 |
Ponomarenko P, Menk FW, Waters CL, 'Identification of ULF waves in SuperDARN data', CD Scientific Program and Book of Abstracts, Finland (2003) [E3]
|
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2002 |
Howard TA, Menk FW, Ponomarenko P, Waters CL, Fraser BJ, 'The Generation and Propagation of Pc3-4 ULF Waves at High Latitudes', Transactions American Geophysical Union, San Francisco USA (2002) [E3]
|
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2002 | Waters CL, 'Comparison of Iridium Determined Field-Aligned Current Patterns with MHD Simulations', Transactions of Americal Geophysical Union, Washington DC (2002) [E3] | |||||||
2002 |
Loto'Aniu T, Fraser BJ, Waters CL, 'CRRES Observations of Electromagnetic Ion Cyclotron Wave Energy Propagation: Dynamic Poynting Spectra', Transactions of American Geophysical Society, Wellington New Zealand (2002) [E3]
|
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2002 | Waters CL, 'Remote Sensing Plasma Dynamics of the Inner Magnetosphere Using ULF Waves', Transactions of the Americal Geophysical Union, San Francisco USA (2002) [E3] | |||||||
2002 |
Waters CL, Sampson JC, Menk FW, Fraser BJ, 'Remote sensing Magnetospheric Plasma Mass Density: Toward a Space Weather Product', Transactions of the American Geophysical Society, Wellington New Zealand (2002) [E3]
|
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2002 | Waters CL, 'An Iridium Based Model of Low Altitude Field Aligned Currents with Extension to Storm Time Conditions', Transactions of the American Geophysical Union, Washington DC (2002) [E3] | |||||||
2002 | Waters CL, 'Iridium Results on Global Field Aligned Currents: North/South Conjugacy, Poynting Flux, and Model Comparisons', Transactions of the American Geophysical Union, Wellington New Zealand (2002) [E3] | |||||||
2002 | Parkinson ML, Dyson PL, Pinnock M, Devlin JC, Waters CL, 'The Tasman International Geospace Environment Radar (TIGER): Initial Results and Future Directions', Transactions of the American Geophysical Union, Wellington New Zealand (2002) [E3] | |||||||
2002 |
Fraser BJ, Waters CL, Ables ST, 'ULF Waves and Space Weather Diagnostics', Transactions of the American Geophysical Union, Wellington New Zealand (2002) [E3]
|
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2002 |
Ponomarenko P, Menk FW, Waters CL, Parkinson ML, Dyson PL, 'Observation of ULF Waves in the Mid-Latitude Ionosphere using the SuperDARN TIGER Radar', Transactions of the American Geophysical Union, Wellington New Zealand (2002) [E3]
|
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2002 | Ponomarenko P, Waters CL, Fenrich FR, Johansson MN, 'Mapping of Pc5 Wave Polarization Parameters using Saskatoon and Kapuskasing SuperDARN Radars', Transactions of the American Geophysical Union, Wellington New Zealand (2002) [E3] | |||||||
2002 | Waters CL, Anderson BJ, Strangeway R, Greenwald RA, 'A Comparison of Poynting Flux from Combined Iridium and SuperDARN Data with FAST Measurements', Transactions of the American Geophysical Union, Wellington New Zealand (2002) [E3] | |||||||
2002 | Ponomarenko P, Waters CL, 'Are there stable discrete-frequency ULF oscillations in the magnetosphere and solar wind?', Proceedings of SuperDARN 2002, Alaska (2002) [E3] | |||||||
2002 |
Ponomarenko P, Menk FW, Waters CL, Parkinson ML, Dyson PL, 'Investigation of ULF Waves Near the Plasmapause using the TIGER SuperDARN Radar', Proceedings of SuperDARN 2002, Alaska (2002) [E3]
|
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2002 |
Hu YD, Fraser BJ, Waters CL, Barnes MP, 'Compressional Pc4 ULF Waves in the Middle Magnetosphere', Proceedings of URSI GA 2002, Netherlands (2002) [E3]
|
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2002 | Waters CL, 'Using Commercial Satellite Data for Space Weather Studies', WARS02 Conference Proceedings, Leura, Blue Mountains NSW (2002) [E3] | |||||||
2002 |
Ponomarenko P, Menk FW, Waters CL, Parkinson ML, Dyson PL, 'Observation of ULF waves in vicinity of the plasmapause using SuperDARN TIGER radar', WARS02 Conference Proceedings, Sydney (2002) [E3]
|
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2002 | Ponomarenko P, Waters CL, Fenrich FR, Johansson MN, 'Polarization of a Pc5 wave observed by Saskatoon and Kapuskasing superDARN radars', WARS02 Conference Proceedings, Sydney (2002) [E3] | |||||||
2002 |
Ables ST, Fraser BJ, Ponomarenko P, Waters CL, Morris RJ, 'What is the High Latitude Cusp Signature in Pc5 ULF Waves?', CRC for Satellite Systems Conference 2002 Program and Abstracts, Canberra (2002) [E3]
|
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2002 |
Fraser BJ, Menk FW, Waters CL, 'NewMag Space Science and Operations', Cooperative Research Centre for Satellite Systems Conference 2002 Program and Abstracts, Canberra (2002) [E3]
|
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2002 |
Ponomarenko P, Menk FW, Waters CL, Parkinson ML, Dyson PL, 'ULF Waves near the Plasmapause Observed by SuperDARN Tiger Radar', Cooperative Research Centre for Satellite Systems Conference 2002 Program and Abstracts, Canberra (2002) [E3]
|
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2002 |
Manusiu PV, Fraser BJ, Waters CL, 'CRRES observations of Elecgromagnetic Ion Cyclotron Wave Dynamic Poynting Spectra', Cooperative Research Centre for Satellite Systems Conference 2002 Program and Abstracts, Canberra (2002) [E3]
|
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2001 |
Manusiu PV, Fraser BJ, Waters CL, 'Electromagnetic Ion Cyclotron Wave Energy Propagation in the Magnetosphere: Dynamic Poynting Spectra Results', 2001 Fall meeting Program and Abstracts CD, San Francisco, USA (2001) [E3]
|
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2001 |
Fraser BJ, Menk FW, Waters CL, Russell CT, Means JD, 'Magnetosphere- Ionosphere Coupling: NewMag Magnetic Field Studies', CRCSS Technical Memorandum 01/01, Noah's on the Beach, Newcastle (2001) [E3]
|
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2001 |
Manusiu PV, Fraser BJ, Waters CL, 'Electromagnetic Ion Cyclotron Wave Energy Propagation in the Magnetosphere', CRCSS Technical Memorandum 01/01, Noah's on the Beach, Newcastle (2001) [E3]
|
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2001 |
Ponomarenko P, Waters CL, Sciffer MD, Fraser BJ, Samson JC, 'Azimuthal Propagation of Pc5 ULF Waves in the Ionosphere and on the Ground', CRCSS Technical Memorandum 01/01, Noah's on the Beach, Newcastle (2001) [E3]
|
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2001 | Waters CL, 'Low Earth Orbit Satellite Magnetometer Data and Space Weather', CRCSS Technical Memorandum 01/01, Noah's on the Beach, Newcastle (2001) [E3] | |||||||
2001 |
Sciffer MD, Waters CL, 'One Diemensional Model for ULF Wave Propagation through the Ionosphere from FedSat to the Ground', CRCSS Technical Memorandum 01/01, Noah's on the Beach, Newcastle (2001) [E3]
|
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2001 | Waters CL, Anderson BJ, 'Calculating High Latitude EM Power Distribution Using Iridium LLC and HF Radar Data', CRCSS Technical Memorandum 01/01, Noah's on the Beach, Newcastle (2001) [E3] | |||||||
2001 | Anderson BJ, Takahashi K, Waters CL, 'Inter-comparison of magnetic pertubation maps derived from Iridium magnetometer data and DMSP magnetic field observations', 2001 Fall meeting Program and Abstracts CD, San Francisco, USA (2001) [E3] | |||||||
2001 | Waters CL, 'Challenges in Space Physics', 2nd Forefront Conference, University of Newcastle (2001) [E3] | |||||||
2001 |
Fraser BJ, Russell CT, Means JD, Menk FW, Waters CL, 'The FedSat NEWMAG Magnetic field experiment', ANARE Reports Volume 146, Freemantle, WA, Australia (2001) [E1]
|
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2001 | Waters CL, 'Remote Sensing Plasma Mass Density Dynamics in the Magnetosphere Using ULF Waves', Radio Science - Communications, Environment and Energy Conference Digest, Chuo University, Tokyo, Japan (2001) [E3] | |||||||
2001 | Parkinson ML, Pinnock M, Dyson PL, Devlin JC, Waters CL, Smith PR, Breed AM, 'Dual SuperDARN radar observations of the time delay for the high latitude nightside ionosphere to respond to solar wind discontinuities arriving at the magnetopause', SuperDARN 2001 Workshop Book of Abstracts, Venice, Italy (2001) [E3] | |||||||
2001 | Parkinson ML, Devlin JC, Pinnock M, Dyson PL, Waters CL, Breed AM, 'On the occurrence of TIGER auroral and subauroral eacho parameters sorted according to season, the Kp index, and the interplanetary magnetic field at sunspot maximum', SuperDARN 2001 Workshop Book of Abstracts, Venice, Italy (2001) [E3] | |||||||
2001 |
Waters CL, Ponomarenko P, Menk FW, Parkinson ML, Dyson PL, Devlin JC, 'ULF wave signatures in TIGER SuperDARN data', SuperDARN 2001 Workshop Book of Abstracts, Venice, Italy (2001) [E3]
|
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2001 | Waters CL, Anderson BJ, Greenwald RA, Barnes RJ, 'Global high latitude Poynting flux from combined Iridium and SuperDARN data', SuperDARN 2001 Workshop Book of Abstracts, Venice, Italy (2001) [E3] | |||||||
2001 | Anderson BJ, Waters CL, 'Conjugate observations of Global Field Aligned Current Patterns from Iridium', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3] | |||||||
2001 |
Menk FW, Ponomarenko P, Waters CL, Parkinson ML, Dyson PL, 'HF Radar Observations of ULF Waves Near the Plasmapause', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3]
|
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2001 |
Sciffer MD, Waters CL, 'A One Dimensional Model for ULF Wave Propagation in the Ionosphere: A Comparision Between Numerical and Analytic Results', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3]
|
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2001 | Waters CL, Anderson BJ, Barnes RJ, Pinnock M, Greenwald RA, 'Comparison of Conjugate EM Energy Flux into the Ionosphere from Combined Iridium and SuperDARN Data', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3] | |||||||
2001 | Waters CL, Takahashi K, Lee D-H, 'The Experimental Evidence for Magnetospheric Cavity/Waveguide Modes', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3] | |||||||
2001 |
Waters CL, Yeoman TK, Sciffer MD, Wright DM, 'HF Doppler Oscillations for Oblique Background Magnetic Fields: Experiment and Modeling', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3]
|
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2001 | Anderson BJ, Ohtani S-I, Waters CL, 'Global Field Aligned Currents During Geomagnetic Storms: Results form Iridium', Vietnam 2001 IAGA-IASPEI Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3] | |||||||
2001 |
Ables ST, Fraser BJ, Ponomarenko P, Waters CL, Morris RJ, 'What is the Pc5 Cusp Signature?', Vietnam 2001 IAGA-IASpei Joint Scientific Assembly, Hanoi, Vietnam (2001) [E3]
|
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2000 |
Manusiu PV, Fraser BJ, Waters CL, 'Propagation Characteristics of Electromagnetic Ion Cyclotron Waves Propagating in the Magnetosphere: CRRES Poynting Vector Observations', AIP 2000 Congress, 14th National Congress, Ubiversity of Adelaide, Adelaide (2000) [E3]
|
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2000 |
Fraser BJ, Waters CL, Ables ST, Howard TA, Bish AG, Symonds L, et al., 'Pc3-5 ULF Wave Observations from a Triangular Network of Closely Spaced Magnetometers near Davis Station, Antarctica', AIP 2000 Congress, 14th National Congress, University of Adelaide, Adelaide (2000) [E3]
|
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2000 |
Menk FW, Waters CL, Fraser BJ, Parkinson ML, Dyson PL, 'TIGER HF Radar Observations of ULF Waves near the Plasmapause', AIP 2000 Congress, 14th National Congress, University of Adelaide, Adelaide (2000) [E3]
|
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2000 |
Ponomarenko P, Waters CL, Sciffer MD, Fraser BJ, Samson JC, 'Spatial Integration and Pc5 ULF Azimuthal Wavenumbers Observed on the Ground', AIP 2000 Congress, 14th National Congress, University of Adelaide, Adelaide (2000) [E3]
|
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2000 |
Sciffer MD, Waters CL, 'One Dimensional Model for ULF Wave Propagation in the Ionosphere', AIP 2000 Congress, 14th National Congress, University of Adelaide, Adelaide (2000) [E3]
|
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2000 |
Sciffer MD, Waters CL, Menk FW, Dunlop I, 'Mixed ULF Wave Modes and HF Doppler Oscillations', AIP 2000 Congress, 14th National Congress, University of Adelaide, Adelaide (2000) [E3]
|
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2000 |
Ables ST, Fraser BJ, Waters CL, Neudegg DA, 'SPATIAL CONFIGURATION OF Pc5 GEOMAGNETIC PULSATIONS OBSERVED AT CUSP/CLEFT LATITUDES', CRCSS 2000 Conference, Adelaide, Adelaide, SA (2000) [E3]
|
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2000 |
Fraser BJ, Menk FW, Waters CL, Russell CT, Means JD, 'MAGNETOSPHERE - IONOSPHERE COUPLING: NEWMAG
MAGNETIC FIELD STUDIES', CRCSS 2000 Conference, Adelaide, Adelaide, SA (2000) [E3]
|
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2000 |
Manusiu PV, Fraser BJ, Waters CL, 'PROPAGATION OF ELECTROMAGNETIC ION CYCLOTRON (EMIC)
WAVES IN THE MAGNETOSPHERE', CRCSS 2000 Conference, Adelaide, Adelaide, SA (2000) [E3]
|
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2000 |
Menk FW, Waters CL, Fraser BJ, 'GEOSPACE DIAGNOSTICS', CRCSS 2000 Conference, Adelaide, Adelaide, SA (2000) [E3]
|
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2000 |
Sciffer MD, Waters CL, Fraser BJ, Foulkes KM, Brand K, Saka O, Yumoto K, 'THE PHASE STRUCTURE OF EQUATORIAL AND VERY LOW LATITUDE WAVES ACROSS DAWN', CRCSS 2000 Conference, Adelaide, Adelaide, SA (2000) [E3]
|
|||||||
2000 | Waters CL, Samson JC, 'Remote Sensing Plasmatrough Plasma Densities During a Storm Cycle', CRCSS 2000 Conference, Adelaide, Adelaide, SA (2000) [E3] | |||||||
2000 |
Ables ST, Fraser BJ, Waters CL, 'PHASE PROPERTIES OF Pc5 GEOMAGNETIC PULSATIONS OBSERVED AT CUSP/CLEFT LATITUDES', SCAR 2000 Meeting, Tokyo, Japan and web http://www.sprl.umich.edu/MIST/, Tokyo, Japan (2000) [E3]
|
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2000 |
Fraser BJ, Russell CT, Means JD, Menk FW, Waters CL, 'The FEDSAT NEWMAG Magnetic Field Experiment', SRAMP AIP Perth papers on the web http://www.ips.gov.au/SRAMP/aip/index.htm, Perth (2000) [E1]
|
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2000 |
Menk FW, Waters CL, Fraser BJ, Parkinson ML, Dyson PL, 'HF RADAR OBSERVATIONS OF ULF WAVES NEAR THE PLASMAPAUSE', SRAMP Meeting, October 2000, Sapporo, Japan, Sapporo, Japan (2000) [E3]
|
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2000 |
Sciffer MD, Waters CL, 'ONE DIMENSIONAL MODEL FOR ULF WAVE PROPAGATION IN THE IONOSPHERE', SRAMP Meeting, October 2000, Sapporo, Japan, Sapporo, Japan (2000) [E3]
|
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2000 |
Sciffer MD, Waters CL, Menk FW, Dunlop IS, 'HF DOPPLER OSCILLATIONS DUE TO MIXED ULF WAVE MODES', SRAMP Meeting, October 2000, Sapporo, Japan, Sapporo, Japan (2000) [E3]
|
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2000 |
Ponomarenko P, Waters CL, Sciffer MD, Fraser BJ, Samson JC, 'EFFECT OF 2D SPATIAL INTEGRATION ON PC5 ULF AZIMUTHAL WAVENUMBERS OBSERVED ON THE GROUND', SRAMP Meeting, October 2000, Sapporo, Japan, Sapporo, Japan (2000) [E3]
|
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2000 |
Waters CL, Sciffer MD, Dunlop IS, Menk FW, 'HF DOPPLER OSCILLATIONS DUE TO MIXED ULF WAVE MODES', SRAMP Perth AIP papers on the web http://www.ips.gov.au/SRAMP/aip/index.htm, Perth (2000) [E1]
|
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2000 |
Ponomarenko P, Waters CL, Sciffer MD, Fraser BJ, 'Spatial Structure of High-Latitude Pc5 Pulsations via SuperDARN Data', Proceedings from SuperDARN 2000 CD, Beechworth, Vic (2000) [E2]
|
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2000 |
Menk FW, Waters CL, Fraser BJ, 'Space Weather Diagnostics Using Space-Borne Magnetometers', Symposium on Microsatellite Applications for Asia and the Pacific, CRCSS Technical Memorandum 00/02, University House, ANU, Canberra (2000) [E3]
|
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2000 |
Fraser BJ, Menk FW, Waters CL, Essex EA, Russell CT, Means JD, 'FedSat Space Science: Magnetosphere-Ionosphere Studies', Symposium on Microsatellite Applications for Asia and the Pacific, CRCSS Technical Memorandum 00/02, University House, ANU, Canberra (2000) [E3]
|
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2000 |
Menk FW, Sciffer MD, Waters CL, Fraser BJ, Parkinson ML, Dyson PL, 'ULF Waves in the Ionosphere: Recent Observations and Modelling', Proceedings from SuperDARN 2000, Beechworth, Vic, CD, Beechworth, Vic (2000) [E3]
|
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2000 |
Fraser BJ, Menk FW, Waters CL, Bish AG, Russell C, Means J, 'Australian Space Research, The FedSat Microsatellite', WARS'2000 (Workshop on Applications of Radio Science) CD ISBN 1864465328 and web http://www.ips.gov.au/ncrs/wars2000/index.htm, La Trobe University, Beechworth Campus, Victoria (2000) [E1]
|
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2000 |
Bish AG, Fraser BJ, Menk FW, Waters CL, Means JD, Russell CT, 'Magnetic Field Measurements in Space: The NewMag Magnetometer', WARS'2000 (Workshop on Applications of Radio Science)CD ISBN 1864465328 and http://www.ips.gov.au/ncrs/wars2000/index.htm, La Trobe University, Beechworth Campus, Victoria (2000) [E1]
|
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1999 |
Menk FW, Waters CL, Orr D, Milling DK, Cliverd MA, Smith AJ, 'Monitoring spatial and temporal variations in the dayside plasmasphere using geomagnetic field line resonances', IUGG Birmingham 99 CD, Birmingham, UK (1999) [E4]
|
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1999 |
Menk FW, Waters CL, Fraser BJ, 'Field line resonances and waveguide modes at low latitudes: observations', IUGG Birmingham 99 CD, Birmingham, UK (1999) [E4]
|
Nova | ||||||
1999 |
Sciffer MD, Waters CL, 'A model for ULF wave propagation through the ionosphere', IUGG Birmingham 99 CD, Birmingham, UK (1999) [E4]
|
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1999 |
Waters CL, Sciffer MD, Dunlop IS, Menk FW, Fenrich F, Samson JC, 'The Relationship Between SuperDARN Doppler Velocities and Ground Magnetometer Data', IUGG Birmingham 99 CD, Birmingham, UK (1999) [E4]
|
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1999 |
Waters CL, Sciffer MD, Fraser BJ, Foulkes KM, Brand K, Saka O, Yumoto K, 'The phase structure of equatorial and very low latitude4 ULF waves across dawn', IUGG Birmingham 99 Cd, Birmingham, UK (1999) [E4]
|
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1999 |
Sciffer MD, Waters CL, 'Reflection coefficients of ULF waves propagating through the ionosphere', La Trobe South Pacific S-RAMP Meeting, Glenn College, La Trobe University, Victoria, 27-29 September 1999 (1999) [E4]
|
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1999 |
Lotoaniu T, Fraser BJ, Waters CL, 'Propagation of electromagnetic ion cyclotron (EMIC) waves in the magnetosphere', La Trobe South Pacific S-RAMP Meeting, Glenn College, La Trobe University, Victoria, 27-29 September 1999 (1999) [E4]
|
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1999 | Waters CL, Samson JC, 'Remote sensing plasmatrough plasma densities during a storm cycle', La Trobe South Pacific S-RAMP Meeting, Glenn College, La Trobe University, Victoria, 27-29 September 1999 (1999) [E4] | |||||||
1999 |
Fraser BJ, Menk FW, Waters CL, Russell CT, Means J, 'The FedSat NEWMAG magnetometer science program', La Trobe South Pacific S-RAMP Meeting, Glenn College, La Trobe University, Victoria, 27-29 September 1999 (1999) [E4]
|
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1999 |
Ables ST, Fraser BJ, Waters CL, Ponomarenko P, Morris RJ, 'Spectral properties of field line resonances in high latitude ULF waves', La Trobe South Pacific S-RAMP Meeting, Glenn College, La Trobe University, Victoria, 27-29 September 1999 (1999) [E4]
|
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1999 |
Lotoaniu T, Waters CL, Fraser BJ, 'Remote Sensing of Plasma Density in the Plasmatrough', Satellite Systems Centre Conference 1999: Record, Paradise Wirrina Cove Resort, Cape Jervis Rd, Second Valley, SA (1999) [E4]
|
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1998 |
Ables ST, Fraser BJ, Waters CL, Neudegg DA, Morris RJ, 'Monitoring cusp/cleft topology using Pc5 ULF waves', 1998 Western Pacific Geophysics Meeting, American Geophysics Union, Taipei, Taiwan, 21-24 July 1998 (1998) [E3]
|
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1998 |
Waters CL, Price IA, Menk FW, 'Obtaining upper ionosphere plasma mass densities using the harmonics of resonant ULF waves', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3]
|
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1998 |
Menk FW, Waters CL, Fraser BJ, 'Observations of 10-100 mHz (Pc3-4) ULF waves at low latitudes', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3]
|
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1998 |
Dunlop IS, Menk FW, Waters CL, 'ULF waves in the low latitude ionosphere: observations and modelling', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3]
|
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1998 |
Waters CL, Sciffer MD, Dunlop IS, Menk FW, 'A model for ionspheric Doppler shift due to ULF waves', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3]
|
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1998 |
Saka O, Fraser BJ, Waters CL, 'The relationship between equatorial and low latitude Pc3 ULF waves', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3]
|
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1998 | Manusiu PV, Waters CL, 'Comparison of plasmatrough plasma densities obtained from in-situ spacecraft and ground-based measurements', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3] | |||||||
1998 |
Sciffer MD, Waters CL, 'ULF cavity modes with realistic inner boundary condition', Program and Abstracts, 13th National Congress of the Australian Institute of Physics, Fremantle, Australia (1998) [E3]
|
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Show 211 more conferences |
Grants and Funding
Summary
Number of grants | 32 |
---|---|
Total funding | $4,641,429 |
Click on a grant title below to expand the full details for that specific grant.
20221 grants / $357,982
Active Magnetosphere and Planetary Electrodynamics Response Experiment III (AMPERE - III)$357,982
Funding body: National Science Foundation
Funding body | National Science Foundation |
---|---|
Project Team | Professor Colin Waters, Dr Brian Anderson |
Scheme | Research Grant |
Role | Lead |
Funding Start | 2022 |
Funding Finish | 2024 |
GNo | G2201040 |
Type Of Funding | C3400 – International For Profit |
Category | 3400 |
UON | Y |
20205 grants / $576,331
Technotia Operational Schedules$203,888
Funding body: Technotia Pty Ltd
Funding body | Technotia Pty Ltd |
---|---|
Project Team | Associate Professor John Holdsworth, Associate Professor John Holdsworth, Associate Professor John Holdsworth, Professor Colin Waters |
Scheme | Research Grant |
Role | Investigator |
Funding Start | 2020 |
Funding Finish | 2023 |
GNo | G2001278 |
Type Of Funding | C3100 – Aust For Profit |
Category | 3100 |
UON | Y |
Contract Baseline $170,386
Funding body: U.S. Department of Energy
Funding body | U.S. Department of Energy |
---|---|
Project Team | Professor Colin Waters, Dr David Green |
Scheme | Federally Funded Research and Development Center |
Role | Lead |
Funding Start | 2020 |
Funding Finish | 2021 |
GNo | G2000891 |
Type Of Funding | C3700 – International Govt – Own Purpose |
Category | 3700 |
UON | Y |
Prediction Calculator Design Using Natural Phenomena with Industry Application as further specified at attachment A$92,184
Funding body: Technotia Pty Ltd
Funding body | Technotia Pty Ltd |
---|---|
Project Team | Associate Professor John Holdsworth, Professor Colin Waters, Professor James Murray-Parkes, Dr Jackson Clarke, Mr Adam Syles, Ms Charlotte Groom |
Scheme | Scholarship |
Role | Investigator |
Funding Start | 2020 |
Funding Finish | 2022 |
GNo | G2000950 |
Type Of Funding | C3100 – Aust For Profit |
Category | 3100 |
UON | Y |
Flower-Bee and System-User Symbioses as further described in Attachment A$75,740
Funding body: Technotia Pty Ltd
Funding body | Technotia Pty Ltd |
---|---|
Project Team | Associate Professor John Holdsworth, Professor Colin Waters, Dr Jackson Clarke, Professor James Murray-Parkes, Mr Adam Syles, Mr Jesse Frost |
Scheme | Scholarship |
Role | Investigator |
Funding Start | 2020 |
Funding Finish | 2022 |
GNo | G2000946 |
Type Of Funding | C3100 – Aust For Profit |
Category | 3100 |
UON | Y |
Epiphytic Tank Bromeliads as a Basis for Data Retrieval and Transformation Systems$34,133
Funding body: Technotia Pty Ltd
Funding body | Technotia Pty Ltd |
---|---|
Project Team | Associate Professor John Holdsworth, Professor Colin Waters, Professor James Murray-Parkes, Dr Jackson Clarke, Mr Adam Syles, Kevin Jorge |
Scheme | Scholarship |
Role | Investigator |
Funding Start | 2020 |
Funding Finish | 2022 |
GNo | G2000948 |
Type Of Funding | C3100 – Aust For Profit |
Category | 3100 |
UON | Y |
20161 grants / $282,284
Active Magnetosphere and Planetary Electrodynamics Response Experiment II (AMPERE-II)$282,284
Funding body: National Science Foundation
Funding body | National Science Foundation |
---|---|
Project Team | Professor Colin Waters |
Scheme | Project Grant |
Role | Lead |
Funding Start | 2016 |
Funding Finish | 2019 |
GNo | G1301062 |
Type Of Funding | C3500 – International Not-for profit |
Category | 3500 |
UON | Y |
20141 grants / $10,000
Reducing societal and economic vulnerability to space weather events$10,000
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters, Emeritus Professor Fred Menk |
Scheme | Near Miss Grant |
Role | Lead |
Funding Start | 2014 |
Funding Finish | 2014 |
GNo | G1301392 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
20121 grants / $132,470
The Role of Magnetospheric Plasma Waves in Driving Space Weather$132,470
Funding body: Australian Antarctic Division
Funding body | Australian Antarctic Division |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters, Doctor Murray Sciffer, Doctor Sean Ables, Emeritus Professor Brian Fraser, Dr Craig Rodger |
Scheme | Australian Antarctic Science Grant |
Role | Lead |
Funding Start | 2012 |
Funding Finish | 2016 |
GNo | G1201082 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
20101 grants / $330,000
First realistic modeling of the effects of ULF wave energy in the ionosphere over the Australian region$330,000
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Professor Colin Waters, Professor Robert Lysak |
Scheme | Discovery Projects |
Role | Lead |
Funding Start | 2010 |
Funding Finish | 2012 |
GNo | G0190087 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
20071 grants / $299,038
Active magnetosphere and planetary electrodynamics response experiment (AMPERE)$299,038
Funding body: Johns Hopkins University Applied Physics Laboratory
Funding body | Johns Hopkins University Applied Physics Laboratory |
---|---|
Project Team | Professor Colin Waters |
Scheme | Project |
Role | Lead |
Funding Start | 2007 |
Funding Finish | 2012 |
GNo | G0188150 |
Type Of Funding | International - Non Competitive |
Category | 3IFB |
UON | Y |
20061 grants / $180,250
Dual radar studies of sub-auroral magnetosphere-ionosphere coupling$180,250
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters |
Scheme | Discovery Projects |
Role | Investigator |
Funding Start | 2006 |
Funding Finish | 2008 |
GNo | G0186157 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
20051 grants / $195,000
Electrodynamics of the High Latitude Ionosphere$195,000
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Professor Colin Waters |
Scheme | Discovery Projects |
Role | Lead |
Funding Start | 2005 |
Funding Finish | 2007 |
GNo | G0184417 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
20032 grants / $10,900
ULF Wave effects on the ionosphere at multiple heights$8,500
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters, Emeritus Professor Fred Menk |
Scheme | Project Grant |
Role | Lead |
Funding Start | 2003 |
Funding Finish | 2003 |
GNo | G0182445 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
American Geophysical Union, Fall Meeting 8 to 10 December 2003$2,400
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | Travel Grant |
Role | Lead |
Funding Start | 2003 |
Funding Finish | 2003 |
GNo | G0183773 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
20022 grants / $271,988
Coupling of Solar Wind Energy into the Earth's Environment.$264,488
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters |
Scheme | Discovery Projects |
Role | Investigator |
Funding Start | 2002 |
Funding Finish | 2005 |
GNo | G0181628 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
Remote Sensing Upper Ionosphere Plasma Dynamics$7,500
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | Project Grant |
Role | Lead |
Funding Start | 2002 |
Funding Finish | 2002 |
GNo | G0181462 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
20011 grants / $211,000
Propagation of ULF wave energy from the solar wind through the magnetosphere and ionosphere.$211,000
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters |
Scheme | Large Grant |
Role | Investigator |
Funding Start | 2001 |
Funding Finish | 2003 |
GNo | G0179280 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
20002 grants / $1,569,659
CRC for Satellite Systems$1,559,659
Funding body: CRC for Satellite Systems
Funding body | CRC for Satellite Systems |
---|---|
Project Team | Emeritus Professor Brian Fraser, Professor Colin Waters, Emeritus Professor Fred Menk |
Scheme | Project Agreement |
Role | Investigator |
Funding Start | 2000 |
Funding Finish | 2005 |
GNo | G0185565 |
Type Of Funding | CRC - Cooperative Research Centre |
Category | 4CRC |
UON | Y |
Modelling the propoagation of ULF energy in the ionosphere.$10,000
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters |
Scheme | Project Grant |
Role | Investigator |
Funding Start | 2000 |
Funding Finish | 2000 |
GNo | G0178920 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
19992 grants / $13,036
In-situ and Ground Signatures of ULF waves in the Ionosphere.$11,000
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters, Emeritus Professor Fred Menk |
Scheme | Project Grant |
Role | Lead |
Funding Start | 1999 |
Funding Finish | 1999 |
GNo | G0178204 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
22nd General Assembly of the International Union of Geodesy & Geophysics (IUGG99) Birmingham, UK.$2,036
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | Travel Grant |
Role | Lead |
Funding Start | 1999 |
Funding Finish | 1999 |
GNo | G0180528 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
19982 grants / $12,603
SuperDARN radar data access and analysis node at Newcastle$11,500
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters, Emeritus Professor Brian Fraser |
Scheme | Project Grant |
Role | Lead |
Funding Start | 1998 |
Funding Finish | 1998 |
GNo | G0177403 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
American Geophysical Union Fall Meeting, San Francisco, USA$1,103
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | Travel Grant |
Role | Lead |
Funding Start | 1998 |
Funding Finish | 1998 |
GNo | G0180622 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
19973 grants / $150,952
Tomography of the Inner magnetosphere plasma Environment.$137,000
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters, Emeritus Professor Brian Fraser |
Scheme | Large Grant |
Role | Investigator |
Funding Start | 1997 |
Funding Finish | 1999 |
GNo | G0176194 |
Type Of Funding | Aust Competitive - Commonwealth |
Category | 1CS |
UON | Y |
A Super DARN radar data storage, distribution and analysis node for Newcastle.$12,000
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Professor Colin Waters, Emeritus Professor Fred Menk, Emeritus Professor Brian Fraser |
Scheme | Small Grant |
Role | Lead |
Funding Start | 1997 |
Funding Finish | 1997 |
GNo | G0176639 |
Type Of Funding | Scheme excluded from IGS |
Category | EXCL |
UON | Y |
8th Scientific Assemble of International Assoc. of Geomagnetism Aeronomy (IAGA), Sweden, 4-15 August 1997$1,952
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | Travel Grant |
Role | Lead |
Funding Start | 1997 |
Funding Finish | 1997 |
GNo | G0179598 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
19962 grants / $20,000
Spatial and temporal properties of geomagnetic field line resonances$15,000
Funding body: ARC (Australian Research Council)
Funding body | ARC (Australian Research Council) |
---|---|
Project Team | Emeritus Professor Fred Menk, Professor Colin Waters |
Scheme | Small Grant |
Role | Investigator |
Funding Start | 1996 |
Funding Finish | 1996 |
GNo | G0175843 |
Type Of Funding | Scheme excluded from IGS |
Category | EXCL |
UON | Y |
Diagnostics of plasma processes near the plasmapause.$5,000
Funding body: Department of Industry, Science and Resources
Funding body | Department of Industry, Science and Resources |
---|---|
Project Team | Professor Colin Waters |
Scheme | Bilateral S&T Program (Defunct) |
Role | Lead |
Funding Start | 1996 |
Funding Finish | 1996 |
GNo | G0175974 |
Type Of Funding | Other Public Sector - Commonwealth |
Category | 2OPC |
UON | Y |
19952 grants / $11,473
Diagnostics of plasma processes near Geosynchronous Orbit$10,000
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | New Staff Grant |
Role | Lead |
Funding Start | 1995 |
Funding Finish | 1995 |
GNo | G0175398 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
American Geophysical Union Fall Meeting (Bi-Annual) - San Fransisco - 11-15/12/95$1,473
Funding body: University of Newcastle
Funding body | University of Newcastle |
---|---|
Project Team | Professor Colin Waters |
Scheme | Travel Grant |
Role | Lead |
Funding Start | 1995 |
Funding Finish | 1995 |
GNo | G0176048 |
Type Of Funding | Internal |
Category | INTE |
UON | Y |
19941 grants / $6,463
94APP. High latitude magnetospheric plasma diagnostics.$6,463
Funding body: Department of Industry, Science and Resources
Funding body | Department of Industry, Science and Resources |
---|---|
Project Team | Professor Colin Waters, Emeritus Professor Brian Fraser |
Scheme | Bilateral S&T Program (Defunct) |
Role | Lead |
Funding Start | 1994 |
Funding Finish | 1995 |
GNo | G0174611 |
Type Of Funding | Other Public Sector - Commonwealth |
Category | 2OPC |
UON | Y |
Research Supervision
Number of supervisions
Current Supervision
Commenced | Level of Study | Research Title | Program | Supervisor Type |
---|---|---|---|---|
2006 | Masters | Region 1 and 2 currents | Physics, University of Newcastle | Sole Supervisor |
2006 | Masters | Properties of the Birkeland Currents | Physics, University of Newcastle | Sole Supervisor |
2006 | Masters | Birkeland current balance and inner magnetosphere shielding | Physics, University of Newcastle | Sole Supervisor |
2002 | PhD | noise modeling | Physics, University of Newcastle | Principal Supervisor |
2002 | Masters | A novel anthropomorphic pelvic phantom designed for multicentre level III dosimetry intercomparison | Medical Science, University of Newcastle | Co-Supervisor |
Past Supervision
Year | Level of Study | Research Title | Program | Supervisor Type |
---|---|---|---|---|
2023 | PhD | Remote Sensing Electric Fields in the Magnetosphere Using Field Line Resonances | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Principal Supervisor |
2022 | PhD | ULF Modulation of EMIC in the Inner Magnetosphere | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Principal Supervisor |
2021 | PhD | Density Modifications in a Fusion Plasma Driven by the Ponderomotive Force | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Principal Supervisor |
2018 | PhD | Dynamics of HF Radar Backscatter in the Middle and High Latitude Ionospheres | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Principal Supervisor |
2017 | PhD | The Interaction of Storm-Time ULF Waves with Earth's Radiation Belts in the Presence of a Realistic Ionosphere Boundary | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Co-Supervisor |
2014 | PhD | Doppler Clutter in HF Radar Systems Produced by ULF Waves | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Principal Supervisor |
2009 | Masters | A Novel Anthropomorphic Pelvic Phantom Designed for Multicentre Level III Dosimetry Intercomparison | M Philosophy (Physics), College of Engineering, Science and Environment, The University of Newcastle | Co-Supervisor |
2006 | PhD | The Mie and Helmholtz Representation of Vector Fields in the Context of Magnetosphere-Ionosphere Coupling | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Principal Supervisor |
2003 | PhD | The Propagation of Electromagnetic Ion Cyclotron Wave Energy in the Magnetosphere | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Co-Supervisor |
2003 | PhD | The Generation and Propagation of Pc 3-4 ULF Waves at High Latitudes | PhD (Physics), College of Engineering, Science and Environment, The University of Newcastle | Co-Supervisor |
Research Collaborations
The map is a representation of a researchers co-authorship with collaborators across the globe. The map displays the number of publications against a country, where there is at least one co-author based in that country. Data is sourced from the University of Newcastle research publication management system (NURO) and may not fully represent the authors complete body of work.
Country | Count of Publications | |
---|---|---|
Australia | 114 | |
United States | 63 | |
Canada | 31 | |
United Kingdom | 17 | |
Japan | 7 | |
More... |
News
News • 30 Sep 2013
Chapman Conference on ULF waves
News • 16 Sep 2013
New Physics Book released by Wiley
News • 28 Jun 2013
Creative Industries
A study concerning Creativity and Cultural Production in the Hunter Region was announced today as one of six University of Newcastle projects awarded highly prestigious Australian Research Council Linkage Project Grants worth a total of $1.8 million.
Professor Colin Waters
Position
Professor
Space Physics Group
School of Information and Physical Sciences
College of Engineering, Science and Environment
Focus area
Physics
Contact Details
colin.waters@newcastle.edu.au | |
Phone | (02) 4921 5421 |
Fax | (02) 4921 6907 |
Office
Room | P-G07 |
---|---|
Building | Physics Building |
Location | Callaghan University Drive Callaghan, NSW 2308 Australia |