A. J. Coster

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    A[A. J. Coster]
    AC["Associated Concepts (25)"]
    AW["Authored Works (190)"]
    CA["Linked Co-Authors (80)"]
    CI["Linked Collaborating Institutions (120)"]
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ORCiD

https://orcid.org/0000-0001-8980-6550

OpenAlex ID

https://openalex.org/A5068227040 (API record)

Associated Concepts [?]

• Physics
• Geology
• Geography
• Astronomy
• Geophysics
• Ionosphere
• Meteorology
• Quantum mechanics
• Atmospheric sciences
• Nuclear physics
• Computer science
• Plasma
• Environmental science
• Engineering
• Magnetic field
• Geodesy
• Telecommunications
• Climatology
• TEC
• Remote sensing
• Solar wind
• Oceanography
• Aerospace engineering
• Operating system
• Earth's magnetic field

Authored Works

sorted by decreasing year, and then by display-name

• Validation of Ionospheric Specifications During Geomagnetic Storms: TEC and foF2 during the 2013 March Storm Event-II
• Utility of Open-Access Scintillation Data: Review of 2022 Space Weather Events in the NSF CEDAR Madrigal Database
• Using new lightning-derived vertical total electron content data to calibrate GNSS absolute TEC
• Two Significant Low-latitude Ionospheric Effects of the 2022 Tonga Volcanic Eruption: Strong Development of Equatorial Plasma Bubbles and Pronounced X-pattern of Equatorial Ionization Anomalies
• The Effect of Prompt Penetration Electric Fields on Plasma Bubble Growth Rates
• Subauroral and midlatitude traveling ionospheric disturbances (TIDs) in the vicinity of storm enhanced density (SED) and subauroral polarization stream (SAPS)
• Subauroral / mid-latitude ionospheric and thermospheric response to flares and CME impacts as observed at Millstone Hill
• Operation of Surface Magnetic Assessment in Real Time (SMART) Ground-based Magnetometer Network
• On the Source of GPS Scintillation by Substorm Irregularities
• NSF Incoherent Scatter Radar Summer School: An Interactive, Intensive Training Opportunity for Fundamental Remote Sensing of Earth's Upper Atmosphere
• Local, regional, and global ionospheric disturbances following the Tonga volcanic eruption
• Ionospheric irregularities and Scintillations associated with Midlatitude plasma density structures
• Impact of Hotspots in Stratospheric Gravity Waves on TID Activity at Middle Latitudes
• Development and Validation of an Ionospheric TEC-ServoAlgorithm to Generate Local Vertical Drifts in the Ionosphere
• Developing 3-D ionospheric specification with a new TEC-based ionospheric data assimilation system (TIDAS)
• Challenges and Solutions in Data Fusion of Multi-Source Observations
• Variations in Thermosphere Composition and Ionosphere Total Electron Content Under Geomagnetically Quiet Conditions at SolarMinimum
• TwoDimensional Evolution of Ionospheric Response to Weak Geomagnetic Activity During Solar Minimum
• The effect of prompt penetration electric fields on plasma bubble occurrence
• Storm-time Plasmaspheric Density Structures Imaged with Ionospheric TEC
• Reconstructing and Predicting Ionospheric TEC: The VISTA Dataset and Matrix-Based Auto-regressive Model
• Operation of Surface Magnetic Assessment in Real Time (SMART) Ground-based Magnetometer Network
• Observations of Mid-latitude Irregularities Using the Oblique Ionosonde Sounding Mode for the HamSCI Personal Space Weather Station
• Multi-instrument analysis of the day-to-day variability of equatorial plasma bubbles
• Multi-Scale Density Structures in the Plume
• Monitoring the development of magnetospheric storms and substorms with GNSS TEC, Scintillation, and All-sky cameras: A New Madrigal Product
• Monitoring auroral and polar precipitation and their associated scintillation with GNSS networks combined with all-sky imager and SuperDARN observations
• Longitudinal Variations of Daytime TID Activity and Their Connection to Stratospheric Gravity Wave Activity
• Ionospheric responses at mid- and high latitudes to the June 10, 2021 solar eclipse
• Ionosphere-Thermosphere response during solar minima as a stratospheric warming is temporarily disrupted and a highspeed streamer is encountered.
• Hemispheric differences and Asymmetries Observed in High-Latitude Ionosphere with GNSS TEC and SuperDARN
• Ground-based ionospheric observations of multiple solar eclipses at low, mid- and high latitudes
• Geospace plume and its impact on dayside magnetopause reconnection rate
• GNSS monitoring of traveling ionospheric disturbances excited by geospace and terrestrial weather
• Direct Connection Between Auroral Oval Streamers/Flow Channels and Equatorward Traveling Ionospheric Disturbances
• Climatology of Traveling Ionospheric Disturbances Observed by HamSCI Amateur Radio with Connections to Geospace and Neutral Atmospheric Sources.
• Amateur Radio Communications as a Novel Sensor of Large Scale Traveling Ionospheric Disturbances
• Utilizing the Madrigal database in the WHPI Initiative
• Upper atmospheric perturbations from hurricanes in the United States
• Understanding the Sources of the Mid-latitude Storm Positive Phase: A Case Study of 16 July 2017
• The Formation of Mid-latitude Irregularities and Potential Impacts on Systems During Magnetic Storms and Sub-Storms
• Subauroal and polar TIDs under M-I-T coupling influences: September 2017 storm observations
• Storm-time Ionospheric Electrodynamics During the September 2017 Geomagnetic Storm
• Some Recent Observational and Theoretical Progress in Understanding Inner Magnetosphere Plasma Transport Dynamics
• Satellite Formation Flying using GNSS: Hardware-in-the-loop Simulation and Applications to Future Multi-scale Space Weather Observations
• Polar Cap Patches and the Tongue of Ionization on 16 July 2017
• Plasmasphere erosion and refilling during the 17-March 2013 and 1-June-2013 magnetic storms
• Observations of pole-to-pole, stratosphere-to-ionosphere connection
• Next Step Space Weather Benchmarks for Ionospheric Disturbances
• Multi-Instrument Study of High Latitude Ionospheric Dynamics due to Enhanced Solar Wind Compression
• Large Scale Traveling Ionospheric Disturbances Observed using HamSCI Amateur Radio, SuperDARN, and GNSS TEC
• Ionospheric Response to the July 2, 2019 South American Solar Eclipse
• Ionosphere/Thermosphere Activities in the International Community Coordinated Modeling Center (iCCMC) Space Weather Modeling Capabilities Assessment Effort
• Global View of the Night-Ionosphere: Seasonal Changes
• Geomagnetic Activity and Generation of TIDs
• GNSS-based Hardware-in-the-loop Simulation of Satellite Formation Flight: An Incubator for Future Multi-scale Space Weather Observations
• Equipping the Workforce with Space Weather Measurement and Interpretation Skills: The Incoherent Scatter Radar Summer School
• Early Morning Equatorial Thermosphere-Ionosphere Anomaly
• Dayside Polar Cap Flows and Density Enhancements Triggered by Substorms
• Comprehensive Observations of Multi-scale Polar Ionosphere Structuring Processes During October 13, 2016 Geomagnetic Storm
• Comparison of GOLD nighttime measurements of OI 135.6 nm radiance with the total electron content map: preliminary results
• A Traveling Ionospheric Disturbance Activity Index
• A New Empirical Model for Ionospheric Total Electron Content
• Traveling Ionospheric Disturbances Observed Over Short Baselines in Massachusetts
• Self-Consistent Simulations of Magnetosphere-Ionosphere Coupling During a Substorm
• SWARM observations of Memorial Day storm in conjunction with MANGO imaging network
• Plasmasphere Evolution During the 17-March-2013 and 28-June-2013 Magnetic Storms
• Observations of Traveling Ionospheric Disturbances at Midlatitudes during Geomagnetic Storm of 1 - 3 September 2016
• Multi-instrument observations of super equatorial plasma bubbles over American and Asian sectors
• Model and Data Analysis of Storm Enhanced Density/Tongue of Ionization events in the Arctic and Antarctic during Solar Cycle 24
• Longitudinal Differences in the Response of Low-Latitude Ionosphere to Sudden Stratospheric Warmings of 2016, 2017, and 2018
• Ionospheric Disturbances During the September 2017 Geomagnetic Storm
• Inter-Hemispheric Coupling of Large Scale Travelling Ionospheric Disturbances during Geomagnetic Storms
• Increased Ionospheric Scintillation in the Southern Hemisphere following Solar Wind Dynamic Pressure Enhancements
• Identification of Auroral Zone Activity Driving Large-Scale Traveling Ionospheric Disturbances
• Horizontal and vertical structures of large scale traveling ionospheric disturbances observed with GNSS receivers and Millstone Hill incoherent scatter radar
• Concurrent Solar Flare and Geomagnetic Storm Effects on the Thermosphere and Ionosphere During September 2017
• Causes and Effects of Small-Scale Plasma Density Irregularities in the Mid-Latitude Ionosphere
• Sub-Auroral Polarization Stream (SAPS) Events Under Non-storm Conditions
• Stormtime Simulations of Sub-Auroral Polarization Streams (SAPS)
• Statistical characterization of the Sub-Auroral Polarization Stream (SAPS)
• Solar Eclipse-Induced Changes in the Ionosphere over the Continental US
• Plasmapause Dynamics Observed During the 17 March and 28 June 2013 Storms
• Plasma line overshoot Observations during the July 2017 HF campaign at the Arecibo Observatory
• Oxygen Ion Upflow/Outflow Fluxes of Ionospheric Origin in the Stormtime Plasmasphere Boundary Layer
• Observations of subauroral ionospheric dynamics during SED plume passage at Millstone Hill
• Magnetosphere-Ionosphere Coupling During a Geomagnetic Substorm on March 1, 2017
• Ionospheric Scintillation Induced by Solar Wind Dynamic Pressure Enhancements in the Southern Hemisphere
• Invetigation of Travelling Ionospheric Disturbances during the Memorial Day Weekend Geomagnetic Storm of 27 - 28 OF may, 2017 Over North America.
• Evaluating the Impact of Whole Atmosphere Coupling on Storm Time Response in the Ionosphere and Plasmasphere
• A storm-time plasmasphere evolution study using data assimilation
• A Plasma Trajectory Back-Tracing Tool Based on SuperDARN Convection Patterns
• A Parametric Study of the Cold Plasma Refilling Rate on the Plasmasphere and Inner Magnetosphere Dynamics during the 17-March-2013 and 28-June-2013 Magnetic Storms
• SAMI3/RCM Stormtime Simulations of SAPS
• Plasmapause Variations During the 17 March 2013 Identified by Ground-based and Space-based GPS Signals
• Multi-instrument observations and numerical modeling of intense ion upflows during stormtime polar cap expansion
• Modeling of Occurrence and Dynamics of Sub-Auroral Polarization Streams (SAPS) During Storm and Non-Storm Conditions
• Ionospheric data assimilation and forecasting during storms
• Empirical Orthogonal Function (EOF) Analysis of Storm-Time GPS Total Electron Content Variations
• Auroral Oval "Images" in GPS TEC Maps
• Analysis of Storm-Time Oscillations in the Total Electron Content
• Utilizing new GNSS capabilities for exploring Geospace
• The Polar Cap Tongue of Ionization: A survey of GPS TEC mappings from 2000 to 2014
• Subauroral Ion-neutral Coupling During the March 2015 Superstorm
• Statistical Characterization of Storm-Time GPS Total Electron Content Variations in the North American Sector
• Quantitative Evaluation of Ionosphere Models for Reproducing Regional TEC During Geomagnetic Storms
• Mass Transport and Dynamics at Subauroral Latitudes During The March 17, 2013 Storm
• Fine Scale Structure observed in the Total Electron Content above the Sub-Auroral, Auroral, and Polar Ionosphere
• Dynamics of Subauroral Polarization Stream (SAPS) Structures
• Deformation of Polar Cap Patches During Substorms
• Superposed Epoch Analysis of GPS Total Electron Content Variations Driven by Geomagnetic Storms
• Spatial Structions of TEC Climatology and Variability in North America
• Phenomenology of the low-latitude ionosphere during northern winter and association with sudden stratospheric warmings
• New Observations of Storm Enhanced Density, Tongues of Ionization and Polar Cap Patches in Antarctica
• Multi-instrument Observations of the Formation and Evolution of Polar Cap Plasma Structures
• Ionospheric Response to the 2009 Sudden Stratospheric Warming over the Equatorial, Low- and Mid-Latitudes in American Sector.
• Ionospheric Effects of Sudden Stratospheric Warming During Solar Maximum and Minimum Periods: What Do We See from Puerto Rico?
• Investigation of Hemispherical Differences in Total Electron Content During Geomagnetic Storms
• Effects of Outer Plasmasphere Processes on Atmospheric Precipitation: A Multipoint Observational Study
• Connecting Stratospheric and Ionospheric Anomalies
• Assessment of Modeling Capability for Reproducing Storm Impacts on TEC
• Study of Ionosphere Total Electron Content for the Broadband Geodetic VLBI Fringe Model
• Stormtime Observations of Plasmasphere Erosion Flux in the Magnetosphere and Ionosphere
• Sensitivity of Ionosphere/Thermosphere to different high-latitude drivers
• New views of the ionosphere provided by GNSS sensing (Invited)
• Multi-instrument, high-resolution imaging of polar cap plasma transportation
• Multi-instrument Observations of Storm Enhanced Density (SED) During the Oct. 24-25 2011 Storm: Implications for SED Formation Processes (Invited)
• Medium-Scale Traveling Ionospheric Disturbances (MSTIDs) resulting from Chelyabinsk Meteor Blast
• Mahali: Space Weather Monitoring Using Multicore Mobile Devices
• Magnetosphere-Ionosphere Coupling Processes in the Ionospheric Trough Region During Substorms
• Ionospheric longitudinal variations at midlatitudes: symmetry and variability
• Ionospheric Effects of Sudden Stratospheric Warming During Moderate-to-High Solar Activity: Case Study of January 2013
• Ground-based support for the Juno Earth Fly-by (Invited)
• Detection of Traveling Ionospheric Disturbances by Medium Frequency Doppler Sounding Using AM Radio Transmissions
• An Equatorial Spread F Plume Observed Over a Mid Latitude Site
• An Empirical Ionospheric Model for Total Electron Content over North America using Empirical Orthogonal Function
• 2013 Geomagnetic Storm Observations in the Arctic and Antarctic
• Solar Storm Effects in Antarctica: Observations from Solar Cycle 24
• Observations of Mid-Latitude Ionospheric Density Structures Over North America
• New views of the Sub-Auroral Polarization Stream using multi-instrument observations
• Multi-Scale Observations of Plasma Conditions and Features in the Coupled Mid-Latitude Ionosphere and Plasmasphere
• Ionospheric variations during sudden stratospheric warmings: what to expect during solar maximum?
• Electrodynamics of the high-latitude trough: Its relationship with convection flows and field-aligned currents
• Effects of high-latitude drivers on Ionosphere/Thermosphere parameters
• Climatology Assessment of Ionosphere/Thermosphere Models in Low Solar Flux Conditions for the CCMC CEDAR Challenge
• Characterizing quasi-periodic disturbances in GPS TEC data and their drivers
• Characteristic ionospheric longitudinal variations at midlatitudes over North America
• AMISR in the Africa: Scientific and Societal Importance
• The Murchison Widefield Array Prototype - Opening a new Window on the Low Frequency Radio Sun
• Systematic Climatology Assessment of Ionosphere/Thermosphere Models during November 2007 to February 2008
• Systematic Assessment of Ionosphere/Thermosphere Models during the 2006 AGU Storm
• Substorm-time ionospheric trough dynamics: Its evolution and relationship with FACs and convection flows
• Patterns and causes of longitude-dependent variation in total electron content at the equatorial anomaly
• Observations of the Tongue of Ionization with GPS TEC and SuperDARN in the Antarctic
• Global Mean Total Electron Content Behavior in Periods of High Geomagnetic Activity
• Extreme Ultraviolet Radiation Flux Changes and Total Electron Content Enhancement During Solar Flares
• Extreme Space Weather: Storm Enhanced Density in the Ionosphere and Magnetosphere
• East-West Coast Differences in Ionospheric Electron Density over the Continental US
• Comparative study of ionospheric response to stratospheric sudden warmings of January 2009 and January 2010
• Characterization of the Ionosphere Over the Murchison Radio Observatory
• Remote sensing of the Ionosphere over the Murchison Radio Observatory, Western Australia, Leading to an Understanding of Fine Scale Behaviour
• Mid-latitude Ion Temperature during a Sudden Stratospheric Warming Event
• Longitudinal Signatures in Global Electron Content Associated with Sudden Stratospheric Warming
• Ionospheric variations associated with stratospheric sudden warmings: current understanding and future challenges (Invited)
• Effects of January 2010 stratospheric sudden warming in the low-latitude ionosphere
• Unsolved Problems: Effects of E-Region Conductance
• Monitoring Shuttle Burns and Rocket Launches with GPS
• Measurements of the ionospheric reaction to exhaust from dedicated burns of the space shuttle’s orbital maneuvering system engines over Kwajalein
• Global Characteristics of the Thermosphere and Ionosphere During the Current Solar Minimum
• Electron Density Gradients associated with Sudden Stratospheric Warmings
• Case Studies of Ionospheric Effects of Stratospheric Sudden Warmings
• A ROCKET EXHAUST DEPLETION (RED) OF IONOSPHERIC TOTAL ELECTRON CONTENT DETECTED BY MULTIPLE DIAGNOSTICS
• Mid-latitude Spread-F and Large Magnetic Storm-Driven Nighttime Flows
• Comparisons of Total Electron Content with GPS and Incoherent Scatter Radar during IPY
• Traveling ionospheric disturbances observed by GPS network in North America and Millstone Hill IS radar
• Observations and simulations of the ionospheric and thermospheric response to the December 2006 geomagnetic storm: Initial phase
• Ionospheric Structure from GPS and Radar Observations for Radio Array Calibration.
• High Latitude Electron Density Distribution determined by GPS TEC and Incoherent Scatter Radar measurements
• The South Atlantic Anomaly and its influence on the total electron content distribution
• Summer-Winter Hemispheric Asymmetry of Sudden Increase in Ionospheric Total Electron Content
• Multi-Instrument Diagnostics of the Plasmasphere Boundary Layer Region
• Investigating the state of the Sun-Earth system during extreme events: First science results of a worldwide online conference series
• Statistical Characterization of Storm Enhanced Density based on GPS TEC Observations
• Plasma Structuring at Mid-Latitudes during Super-Storms and their Impact on GPS-Based Navigation Systems
• Observations and comparisons of storm enhanced density (SED) over northern Europe and American longitude sectors
• Redistribution of the Stormtime Ionosphere and the Formation of a Plasmaspheric Bulge
• Multi-Instrument Investigations of Space Weather Storm Fronts
• Extreme Space Weather: Storm Fronts at the Plasmasphere Boundary Layer
• Variability in the Mesosphere/Thermosphere/Ionosphere System During the Quiet Time of April 2002
• Stormtime Redistribution of the Low-Latitude Ionosphere and the Formation of the Plasmaspheric Bulge

Linked Co-Authors

• A. G. Burns
• A. J. Ridley
• A. S. Reimer
• Anders Eriksson
• Anthony J. Mannucci
• Asti Bhatt
• B. J. Anderson
• Bill Liles
• Brian J. Harding
• Brian M. Walsh
• C. R. Martinis
• C. T. Russell
• Changzhi Zhai
• Chihoko Y. Cullens
• Deepak K. Karan
• Donald Hampton
• E. G. Thomas
• E. H. Lay
• Ercha Aa
• G. W. Perry
• H. Kil
• I. Tsagouri
• In Sun Song
• J. B. Baker
• J. D. Huba
• J. D. Huba
• J. J. Sojka
• J. L. Semeter
• J. M. Ruohoniemi
• Jason Soohoo
• Jeffery D. Tippmann
• Jerry Goldstein
• Jiaen Ren
• Jiang Liu
• Joseph McInerney
• Juha Vierinen
• K. Greer
• K. M. Groves
• Kazue Takahashi
• L. Andersson
• L. R. Lyons
• L. Rastäetter
• Levan Lomidze
• Liying Qian
• Lynn D. Matthews
• M. Codrescu
• M. Fedrizzi
• M. G. Henderson
• N. A. Frissell
• P. H. Reiff
• P. J.
• P. J. Erickson
• Pablo Reyes
• R. E. Daniell
• R. Eastes
• R. H. Varney
• Robert B. Kerr
• S. A. Thaller
• S. E. McDonald
• S. R. Kaeppler
• S. Raizada
• Sebastijan Mrak
• Shantanab Debchoudhury
• Shasha Zou
• Shun‐Rong Zhang
• Stanley C. Solomon
• T. J. Immel
• V. Lynn Harvey
• V. N. Coffey
• Vassilis Angelopoulos
• W. Rideout
• Wenbin Wang
• Xueling Shi
• Xuguang Cai
• Y. Jade Morton
• Y. Nishimura
• Yang Chen
• Ying Zou
• Yue Deng
• Л. П. Гончаренко

Linked Collaborating Institutions

• Aerospace Corporation, California
• Atmospheric & Space Technology Research Associates (ASTRA)
• Bahir Dar University, Ethiopia
• Boston College, Institute for Scientific Research
• Boston College, Massachusetts
• Boston University, Department of Astronomy
• Boston University, Massachusetts
• Brazilian National Institute for Space Research
• British Antarctic Survey
• CAS, Institute of Optics and Electronics
• Catholic University, Washington DC
• Centre National d'Etudes Spatiales, Toulouse
• Clemson University, South Carolina
• Colorado School of Mines
• Cornell University, Department of Earth and Atmospheric Sciences
• Cornell University, New York
• Cornell University, School of Engineering
• Curtin University, Department of Physics
• Dartmouth College, Department of Physics and Astronomy
• Dartmouth College, New Hampshire
• Dartmouth College, Thayer School of Engineering
• European Incoherent Scatter Scientific Association, Norway
• Geophysical Institute of Peru
• George Mason University, Virginia
• Hampton University, Virginia
• Hanscom Air Force Research Laboratory, Massachusetts
• Haystack Observatory
• Helmholtz Center for Geosciences, Potsdam
• Hohai University, China
• Illinois Institute of Technology Chicago
• Institute for Astronomy, Astrophysics, Space Applications and Remote Sensing
• Jet Propulsion Laboratory
• Johns Hopkins University, Applied Physics Laboratory
• Kirtland Air Force Research Laboratory, New Mexico
• Kyoto University, Department of Geophysics
• Kyoto University, Hida and Kwasan Observatories
• Los Alamos National Laboratory, New Mexico
• MIT, Department of Earth and Planetary Science
• MIT, Lincoln Laboratory
• Massachusetts Institute of Technology
• Merrimack College, Massachusetts
• Montana State University, Bozeman
• Murmansk State Technical University, Russia
• NASA Goddard Space Flight Center, Maryland
• NASA Marshall Space Flight Center
• NASU, Institute of Radio Astronomy, Kharkiv
• NJIT, Center for Solar Terrestrial Research
• NOAA Center for Satellite Applications and Research
• NOAA Office of Oceanic and Atmospheric Research
• Nagoya University, Solar Terrestrial Environment Laboratory
• National Academy of Sciences of Ukraine
• National Center for Atmospheric Research, Colorado
• National Center for Atmospheric Research, High Altitude Observatory
• National Institute of Geophysics and Volcanology, Italy
• National Institute of Information and Communications Technology, Japan
• National Observatory of Athens, Greece
• National Oceanic and Atmospheric Administration, Boulder
• National University of La Plata, Faculty of Astronomical and Geophysical Sciences
• New Jersey Institute of Technology
• NorthWest Research Associates, Boulder
• Osaka Electro-Communication University, Japan
• Paraiba Valley University, Brazil
• Rice University, Department of Physics and Astronomy
• Rice University, Texas
• Rutherford Appleton Laboratory
• Siena College, New York
• Southwest Research Institute, Texas
• Stanford Research Institute, California
• Stanford University, California
• Texas A&M University, College Station
• U.S. Department of the Navy, Naval Research Laboratory, Washington DC
• UMass Lowell
• University Center in Svalbard, Norway
• University Corporation for Atmospheric Research, Colorado
• University of Alabama, Huntsville
• University of Alabama, Tuscaloosa
• University of Alaska, Fairbanks
• University of Alaska, Fairbanks, Geophysical Institute
• University of Alberta, Department of Physics
• University of Arizona, Department of Planetary Sciences
• University of Augsburg, Germany
• University of Bath, UK
• University of Calgary, Canada
• University of Calgary, Department of Physics and Astronomy
• University of California, Berkeley
• University of California, Berkeley, Space Sciences Laboratory
• University of California, Los Angeles
• University of California, Los Angeles, Department of Atmospheric and Oceanic Sciences
• University of Colorado, Boulder
• University of Colorado, Boulder, Department of Aerospace and Engineering
• University of Colorado, Boulder, Laboratory for Atmospheric and Space Physics
• University of Electro-Communications, Tokyo, Japan
• University of Illinois, Urbana-Champaign
• University of Leicester, Department of Physics and Astronomy
• University of Maryland, Baltimore County
• University of Maryland, College Park
• University of Michigan
• University of Michigan, Department of Atmospheric Oceanic and Space Sciences
• University of Michigan, Space Physics Research Laboratory
• University of Minnesota, School of Physics and Astronomy
• University of Minnesota, Twin Cities
• University of New Brunswick, Canada
• University of New Brunswick, Department of Physics
• University of New Hampshire
• University of New Hampshire, Institute for the Study of Earth Oceans and Space
• University of Puerto Rico, Mayaguez
• University of Rostock, Germany
• University of Saskatchewan, Canada
• University of Scranton, Pennsylvania
• University of Sydney, Australia
• University of Texas, Arlington
• University of Texas, Austin
• University of Texas, Dallas
• University of Texas, Dallas, Center for Space Sciences
• University of Tromso, Norway
• University of Wisconsin, Madison, Department of Atmospheric Oceanic Sciences
• Utah State University
• Utah State University, Center for Atmospheric and Space Science
• Virginia Polytechnic Institute and State University
• Yonsei University, Seoul, Korea

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