HelioWebSimon Wing
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A[Simon Wing]
AC["Associated Concepts (22)"]
AW["Authored Works (31)"]
CA["Linked Co-Authors (89)"]
CI["Linked Collaborating Institutions (43)"]
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AW== author ==>CA
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click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0001-9342-1813
- OpenAlex ID
- https://openalex.org/A5041761983 (API record)
Associated Concepts [?]
- Physics
- Quantum mechanics
- Geology
- Magnetic field
- Plasma
- Nuclear physics
- Geophysics
- Magnetosphere
- Astronomy
- Solar wind
- Geography
- Meteorology
- Atmospheric sciences
- Mathematics
- Computer science
- Engineering
- Magnetopause
- Ionosphere
- Computational physics
- Aerospace engineering
- Astrophysics
- Chemistry
Authored Works
sorted by decreasing year, and then by display-name
- Using Transfer Entropy to Identify Kelvin-Helmholtz Turbulence Structures and Cross-Scale Coupling in MHD and Hybrid Simulations
- Using Information Theory to Analyze Magnetosphere-Ionosphere Coupling Processes in ANGIE3D Magnetotail Hybrid Simulations
- Understanding the Dissipation of Different Scale Solar Wind Magnetic Structures Using Information Theory
- The Geospace Dynamics Constellation (GDC) mission: NASA's next Living With a Star mission to explore the Ionosphere/Thermosphere
- Structure and dynamics of Jupiter's dawnside magnetosphere: model/data comparisons
- Short Term Memory and Clustering of Solar Flares
- Seven Sisters - An Inner Heliospheric Constellation to 1) Measure Longitudinal Structure of the Coronal Mass Ejections, 2) Enable Advanced Prediction of IMF Orientation at Earth, 3) Determine Particle Energization Processes in Solar Wind Structures
- Polar Cap Boundary Identification Using Redline Optical Data and DMSP Satellite Particle Data
- Machine Learning Models for Ionospheric Electron Density Representation and Prediction
- Information theory highlights new aspects of solar wind driving of the radiation belt electrons
- Information theoretic approach to understanding flare waiting times of an ensemble of solar-type stars
- Electron Energization by Parallel Electric Fields Within Ballooning Modes
- Comparing Velocity Shear Driven Field Aligned Auroral Currents Assuming Linear and Nonlinear Knight Relations
- Applying Information Theory to GAMERA Simulations of Jupiter and Saturn-like Magnetospheres
- Analyzing the Drivers of Scintillation using an Information Theory Approach
- A Study of Magnetic Active Regions: An Information Theory Approach
- Untangling the solar wind and magnetospheric drivers of the radiation belt electrons
- Understanding the flare waiting times of an ensemble of solar-type stars using information theoretic approach
- Polar Cap Boundary identification using redline optical data and DMSP satellite particle data
- On the nature of turbulent heating and transport in Jupiters dawn/midnight sector.
- Multipoint Observations of Dispersive Scale Alfvenic Field-Aligned Resonances Powering Substorm Auroral Beads
- Memory and Scaling Laws in the Dynamics of Solar Flares
- Kinetic scale field line resonances and auroral bead formation
- Information Horizon of Magnetic Active Regions
- Impact of Solar Wind Discontinuities on the Magnetopause: Kinetic Modeling
- Forecasting of Kp Index with Deep Learning
- Field-Aligned Currents in Auroral Vortices
- Distinguishing stellar flares based on an information theoretical approach
- Applying Mutual Information Theory to GAMERA Simulations of Jupiter and Saturn-like Magnetospheres
- Application of Information Theory on Propagation of Solar Wind Properties
- An Information Theory Approach to Identifying Cross-Scale Coupling in Kelvin-Helmholtz Structures in Hybrid Simulations
Linked Co-Authors
- A. J. Boyd
- A. J. Hull
- A. J. Ridley
- A. Pulkkinen
- Alex T. Chartier
- Anders Eriksson
- B. Gallardo‐Lacourt
- B. R. Neupane
- Binzheng Zhang
- Brandon Burkholder
- Burcu Kosar
- C. C. Chaston
- C. M. Fowler
- C. T. Russell
- Cheng Sheng
- Christine Gabrielse
- D. G. Sibeck
- D. J. Gershman
- D. J. Knudsen
- D. M. Gillies
- D. Malaspina
- D. N. Baker
- E. K. Sutton
- E. Spanswick
- E. Zesta
- Eun Hwa Kim
- F. Allegrini
- F. Bagenal
- F. D. Wilder
- G. Clark
- G. V. Khazanov
- Giovanni Lapenta
- Greg Lucas
- Guiping Liu
- H. Akbari
- H. U. Frey
- J. Berchem
- J. Egedal
- J. Jahn
- J. Klenzing
- J. M. Bell
- J. M. Broll
- J. P. Thayer
- J.‐H. Shue
- Joseph E. Borovsky
- Joshua Pettit
- K. Greer
- K. J. Genestreti
- K. Nykyri
- K. Ogasawara
- Kareem Sorathia
- Karine Issautier
- Katherine Garcia‐Sage
- L. A. Avanov
- L. Andersson
- L. Kepko
- Liying Qian
- M. Conde
- M. Hesse
- M. Opher
- M. Pulupa
- M. R. Argall
- M. Samara
- Matthew J. West
- Mausumi Dikpati
- N. M. Viall
- Naomi Maruyama
- Nikolaos Paschalidis
- P. A. Damiano
- P. A. Delamere
- R. B. Torbert
- R. Michell
- R. W. Ebert
- R. Wilson
- S. D. Bale
- S. England
- S. Kavosi
- Sebastijan Mrak
- Shun‐Rong Zhang
- Simone Di Matteo
- Stanley C. Solomon
- T. Moretto
- X. Wang
- X. Zhang
- Xuanye Ma
- Y. Nishimura
- Yang Pan
- Yue Deng
- Yuni Lee
Linked Collaborating Institutions
- Aerospace Corporation, California
- Andrews University, Michigan
- Auburn University, Alabama
- Boston University, Massachusetts
- Catholic University, Washington DC
- European Incoherent Scatter Scientific Association, Norway
- European Space Research and Technology Centre
- Florida Institute of Technology
- George Mason University, Virginia
- Haystack Observatory
- Johns Hopkins University, Applied Physics Laboratory
- Johns Hopkins University, Maryland
- Katholieke University of Leuven, Belgium
- Lockheed Martin, Palo Alto
- Los Alamos National Laboratory, New Mexico
- NASA Ames Research Center
- NASA Goddard Space Flight Center, Maryland
- National Applied Research Laboratory Center for High-Performance Computing, Taiwan
- National Center for Atmospheric Research, Colorado
- National Central University, Taiwan
- National Central University, Taiwan, Institute of Space Science
- National Taipei Institute of Technology, Taiwan
- Observatoire de Paris, France
- Princeton University, New Jersey
- Royal Observatory of Belgium
- Southwest Research Institute, Texas
- University of Alaska, Fairbanks
- University of Calgary, Canada
- University of California, Berkeley
- University of California, Berkeley, Space Sciences Laboratory
- University of California, Los Angeles
- University of Colorado, Boulder
- University of Colorado, Boulder, Laboratory for Atmospheric and Space Physics
- University of Dayton, Ohio
- University of Hong Kong
- University of Maryland, Baltimore County
- University of Michigan
- University of New Hampshire
- University of Texas, Arlington
- University of Texas, San Antonio
- University of Wisconsin, Madison
- Virginia Polytechnic Institute and State University
- West Virginia University
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