QM
Publications
- Periodic Rising and Falling Tone ECH Waves From Van Allen Probes Observations
- Statistical Distribution of Bifurcation of Earth's Inner Energetic Electron Belt at tens of keV
- Statistical Distribution of Energetic Electron Precipitation due to Hiss Waves In the Earth’s Inner Magnetosphere
- Dependence of Relativistic Electron Precipitation in the Ionosphere on EMIC Wave Minimum Resonant Energy at the Conjugate Equator
- A Statistical Study of Lower Hybrid Waves in the Earth's Magnetosphere by Van Allen Probes
- Theoretical model of the nonlinear resonant interaction of whistler-mode waves and field-aligned electrons
- Attenuation of plasmaspheric hiss associated with the enhanced magnetospheric electric field
- Models of Resonant Wave‐Particle Interactions
- Global Survey of Electron Precipitation due to Hiss Waves in the Earth’s Plasmasphere and Plumes
- Quantification of Diffuse Auroral Electron Precipitation Driven by Whistler Mode Waves at Jupiter
- Global Distribution of Whistler Mode Waves in Jovian Inner Magnetosphere
- Plasma Sheet Boundary Layer in Jupiter's Magnetodisk as Observed by Juno
- Properties of Lightning Generated Whistlers Based on Van Allen Probes Observations and Their Global Effects on Radiation Belt Electron Loss
- Very-Low-Frequency transmitters bifurcate energetic electron belt in near-earth space
- Unraveling the Formation Mechanism for the Bursts of Electron Butterfly Distributions: Test Particle and Quasilinear Simulations
- Global Propagation of Magnetospheric Pc5 ULF Waves Driven by Foreshock Transients
- Driving of Outer Belt Electron Loss by Solar Wind Dynamic Pressure Structures: Analysis of Balloon and Satellite Data
- Statistical Distribution of Bifurcation of Earth's Inner Energetic Electron Belt at Tens of keV
- Attenuation of Plasmaspheric Hiss Associated with the Enhanced Magnetospheric Electric Field
- Direct Observational Evidence of the Simultaneous Excitation of Electromagnetic Ion Cyclotron Waves and Magnetosonic Waves by an Anisotropic Proton Ring Distribution
- Characteristics and Generation of Low‐Frequency Magnetosonic Waves Below the Proton Gyrofrequency
- Parallel Acceleration of Suprathermal Electrons Caused by Whistler‐Mode Hiss Waves
- Identifying STEVE's Magnetospheric Driver Using Conjugate Observations in the Magnetosphere and on the Ground
- Direct Observation of Subrelativistic Electron Precipitation Potentially Driven by EMIC Waves
- Global Survey and Empirical Model of Fast Magnetosonic Waves Over Their Full Frequency Range in Earth's Inner Magnetosphere
- Nonlinear Interactions Between Radiation Belt Electrons and Chorus Waves: Dependence on Wave Amplitude Modulation
- Azimuthal Variation of Magnetopause Reconnection at Scales Below an Earth Radius
- Global Survey of Plasma Sheet Electron Precipitation due to Whistler Mode Chorus Waves in Earth's Magnetosphere
- Energetic Electron Scattering due to Whistler Mode Chorus Waves Using Realistic Magnetic Field and Density Models in Jupiter's Magnetosphere
- The Modulation of Plasma and Waves by Background Electron Density Irregularities in the Inner Magnetosphere
- Energetic Electron Precipitation: Multievent Analysis of Its Spatial Extent During EMIC Wave Activity
- Quantification of Energetic Electron Precipitation Driven by Plume Whistler Mode Waves, Plasmaspheric Hiss, and Exohiss
- The Relationship Between EMIC Wave Properties and Proton Distributions Based on Van Allen Probes Observations
- Statistical Analysis of Transverse Size of Lower Band Chorus Waves Using Simultaneous Multisatellite Observations
- Ion Heating by Electromagnetic Ion Cyclotron Waves and Magnetosonic Waves in the Earth's Inner Magnetosphere
- Characteristics of Rising Tone Whistler Mode Waves Inside the Earth's Plasmasphere, Plasmaspheric Plumes, and Plasmatrough
- Oxygen Ion Dynamics in the Earth's Ring Current: Van Allen Probes Observations
- Modeling the Electron Flux Enhancement and Butterfly Pitch Angle Distributions on L Shells <2.5
- Empirically estimated electron lifetimes in the Earth's radiation belts: 1. Observations
- Empirically estimated electron lifetimes in the Earth's radiation belts: 2. Comparison with theory
- The Characteristic Response of Whistler Mode Waves to Interplanetary Shocks
- Diffusive Transport of Several Hundred keV Electrons in the Earth's Slot Region
- Understanding the Origin of Jupiter's Diffuse Aurora Using Juno's First Perijove Observations
- Very Oblique Whistler Mode Propagation in the Radiation Belts: Effects of Hot Plasma and Landau Damping
- Quantitative Evaluation of Radial Diffusion and Local Acceleration Processes During GEM Challenge Events
- Highly Oblique Lower-Band Chorus Statistics: Dependencies of Wave Power on Refractive Index and Geomagnetic Activity
- Understanding the Driver of Energetic Electron Precipitation Using Coordinated Multisatellite Measurements
- EMIC Wave Events During the Four GEM QARBM Challenge Intervals
- The Composition of Plasma inside Geostationary Orbit Based on Van Allen Probes Observations
- Properties of Whistler Mode Waves in Earth's Plasmasphere and Plumes
- Coherently modulated whistler mode waves simultaneously observed over unexpectedly large spatial scales
- Scaling laws for the inner structure of the radiation belts
- Electron butterfly distributions at particular magnetic latitudes observed during Juno's perijove pass
- Searching for low-altitude magnetic field anomalies by using observations of the energetic particle loss cone on JUNO
- Erosion and refilling of the plasmasphere during a geomagnetic storm modeled by a neural network
- VLF waves from ground‐based transmitters observed by the Van Allen Probes: Statistical model and effects on plasmaspheric electrons
- A neural network model of three‐dimensional dynamic electron density in the inner magnetosphere
- Modeling radiation belt dynamics using a 3‐D layer method code
- The Characteristic Pitch Angle Distributions of 1 eV to 600 keV Protons Near the Equator Based On Van Allen Probes Observations
- Systematic Evaluation of Low‐Frequency Hiss and Energetic Electron Injections
- Fast dropouts of multi‐MeV electrons due to combined effects of EMIC and whistler mode waves
- Strong enhancement of 10–100 keV electron fluxes by combined effects of chorus waves and time domain structures
- Radiation belt electron acceleration during the 17 March 2015 geomagnetic storm: Observations and simulations
- Direct evidence for EMIC wave scattering of relativistic electrons in space
- Rapid enhancement of low‐energy (<100 eV) ion flux in response to interplanetary shocks based on two Van Allen Probes case studies: Implications for source regions and heating mechanisms
- The relationship between the macroscopic state of electrons and the properties of chorus waves observed by the Van Allen Probes
- Physical mechanism causing rapid changes in ultrarelativistic electron pitch angle distributions right after a shock arrival: Evaluation of an electron dropout event
- Characteristic energy range of electron scattering due to plasmaspheric hiss
- Transitional behavior of different energy protons based on Van Allen Probes observations
- “Zipper‐like” periodic magnetosonic waves: Van Allen Probes, THEMIS, and magnetospheric multiscale observations
- Modeling inward diffusion and slow decay of energetic electrons in the Earth's outer radiation belt
- Statistical properties of plasmaspheric hiss derived from Van Allen Probes data and their effects on radiation belt electron dynamics
- Analysis of plasmaspheric hiss wave amplitudes inferred from low-altitude POES electron data: Technique sensitivity analysis
- The effect of different solar wind parameters upon significant relativistic electron flux dropouts in the magnetosphere
- Excitation of dayside chorus waves due to magnetic field line compression in response to interplanetary shocks
- Formation of energetic electron butterfly distributions by magnetosonic waves via Landau resonance
- Ultrarelativistic electron butterfly distributions created by parallel acceleration due to magnetosonic waves
- Simulation of energy‐dependent electron diffusion processes in the Earth's outer radiation belt
- Frequency‐dependent responses of plasmaspheric hiss to the impact of an interplanetary shock
- Frequency‐Dependent Responses of Plasmaspheric Hiss to the Impact of an Interplanetary Shock
- Relativistic electron model in the outer radiation belt using a neural network approach
- Energetic Electron Distributions Near the Magnetic Equator in the Jovian Plasma Sheet and Outer Radiation Belt Using Juno Observations
- Dayside Low Energy Electron Precipitation Driven by Hiss Waves in the Presence of Ionospheric Photoelectrons
- Multi‐point observations of modulated whistler‐mode waves and energetic electron precipitation
- Relativistic Electron Model in the Outer Radiation Belt Using a Neural Network Approach
- Multi‐Point Observations of Modulated Whistler‐Mode Waves and Energetic Electron Precipitation
- Multi‐Scale Density Structures in the Plasmaspheric Plume During a Geomagnetic Storm
- Active Control of the Radiation Belt Particle Populations with Ionospheric Amplification of VLF Waves
- Global magnetic field oscillations on the breathing-mode timescale and their effects on energetic electron precipitation
- A Neural Network-Based Model of the Relativistic Electrons Fluxes in the Outer Radiation Belt
- A Test of Energetic Particle Precipitation Models Using Simultaneous Incoherent Scatter Radar and Van Allen Probes Observations
- Radiation Belt Electron Acceleration Driven by Very‐Low‐Frequency Transmitter Waves in Near‐Earth Space
- Dependence of Nonlinear Effects on Whistler‐Mode Wave Bandwidth and Amplitude: A Perspective from Diffusion Coefficients
- A statistical study of pancake pitch angle distribution of low‐energy protons and their correlation with magnetosonic waves
- A Statistical Study of Pancake Pitch Angle Distribution of Low‐Energy Protons and Their Correlation With Magnetosonic Waves
- Dependence of Nonlinear Effects on Whistler‐Mode Wave Bandwidth and Amplitude: A Perspective From Diffusion Coefficients
- Active Precipitation of Radiation Belt Electrons Using Rocket Exhaust Driven Amplification (REDA) of Man‐Made Whistlers
- Statistical Distribution of Energetic Electron Precipitation due to Hiss Waves In the Earth’s Inner Magnetosphere
- Ensemble Modeling of Radiation Belt Electron Flux Decay Following a Geomagnetic Storm: Dependence on Key Input Parameters
- Electron Scattering by Very‐Low‐Frequency and Low‐Frequency Waves from Ground Transmitters in the Earth’s Inner Radiation Belt and Slot Region
- Electron Scattering by Very‐Low‐Frequency and Low‐Frequency Waves From Ground Transmitters in the Earth's Inner Radiation Belt and Slot Region
- Quantifying radiation belt electron loss processes at L < 4
- Highly Oblique Lower‐Band Chorus Statistics: Dependencies of Wave Power on Refractive Index and Geomagnetic Activity
- Analysis of plasmaspheric hiss wave amplitudes inferred from low‐altitude POES electron data: Technique sensitivity analysis
- Searching for low‐altitude magnetic field anomalies by using observations of the energetic particle loss cone on JUNO
- Analysis of Electron Precipitation and Ionospheric Density Enhancements due to Hiss Using Incoherent Scatter Radar and Arase Observations
- Upper Limit of Outer Radiation Belt Electron Acceleration Driven by Whistler‐Mode Chorus Waves
- Analysis of Electron Precipitation and Ionospheric Density Enhancements Due To Hiss Using Incoherent Scatter Radar and Arase Observations
- Energetic Proton Distributions in the Inner and Middle Magnetosphere of Jupiter Using Juno Observations
- Application of Recurrent Neural Network to Modeling Earth’s Global Electron Density
- Electron Heat Fluxes Generated by Intense Whistler Waves at the Upper Ionospheric Altitudes
- Application of Recurrent Neural Network to Modeling Earth's Global Electron Density
- Modeling the Simultaneous Dropout of Energetic Electrons and Protons by EMIC Wave Scattering
- Quantifying Radiation Belt Electron Loss Processes at L < 4
- Simultaneous Cross‐energy Ion Response and Wave Generation after the Impact of An Interplanetary Shock
- Simultaneous Cross‐Energy Ion Response and Wave Generation After the Impact of an Interplanetary Shock
- Unraveling the Critical Geomagnetic Conditions Controlling the Upper Limit of Electron Fluxes in the Earth's Outer Radiation Belt
- Multi‐Event Analysis of the Correlation Between Chorus Waves and Electron Butterfly Distribution Using Van Allen Probes Observation
- Driver of Energetic Electron Precipitation in the Vicinity of Ganymede
- Multiple auroral streamer bundles in conjugate hemispheres and multiple near‐Earth injections
- Ensemble Modeling of Radiation Belt Electron Acceleration by Chorus Waves: Dependence on Key Input Parameters
- Multiple Auroral Streamer Bundles in Conjugate Hemispheres and Multiple Near‐Earth Injections
- Nonlinear Scattering of Relativistic Electrons by Oblique EMIC Waves
- Force‐free current sheets in the Jovian magnetodisk: The key role of electron field‐aligned anisotropy
- Force‐Free Current Sheets in the Jovian Magnetodisk: The Key Role of Electron Field‐Aligned Anisotropy
- Opening the Black Box of the Radiation Belt Machine Learning Model
- Modulation of Energetic Electron Precipitation Driven by Three Types of Whistler Mode Waves
- Bursty Energetic Electron Precipitation by High‐Order Resonance With Very‐Oblique Whistler‐Mode Waves
- Prompt Appearance of Large‐Amplitude EMIC Waves Induced by Solar Wind Dynamic Pressure Enhancement and the Subsequent Relativistic Electron Precipitation
- The Densities and Compositions of Background Cold Ions Based on the Van Allen Probe Observations
- Quantifying Radiation Belt Electron Loss Processes at L < 4
- Differentiating Between Simultaneous Loss Drivers in Earth’s Outer Radiation Belt: Multi Dimensional Phase Space Density Analysis
- Distribution and Evolution of Chorus Waves Modeled by a Neural Network: The Importance of Imbalanced Regression
- Modeling the Simultaneous Dropout of Energetic Electrons and Protons by Magnetopause Shadowing
- Simulating Electron Distribution Function in the Pulsating Aurora Using Particle and Wave Data of ARASE Satellite
- The Role of Plasmasphere in the Formation of Electron Heat Fluxes
- Plasma Wave and Particle Dynamics During Interchange Events in the Jovian Magnetosphere Using Juno Observations
- Differentiating Between Simultaneous Loss Drivers in Earth's Outer Radiation Belt: Multi‐Dimensional Phase Space Density Analysis
- Key factors determining nightside energetic electron losses driven by whistler-mode waves
- On the Energy Coupling From Magnetosonic Waves to High‐Frequency Electromagnetic Ion Cyclotron Waves: Statistical Analysis
- Machine Learning Interpretability of Outer Radiation Belt Enhancement and Depletion Events
- On the Spatial and Temporal Evolution of EMIC Wave‐Driven Relativistic Electron Precipitation: Magnetically Conjugate Observations From the Van Allen Probes and CALET
- Characterizing auroral precipitation and ionospheric conductance with the Dragon King model in MAGE
- Fine structures of magnetospheric magnetosonic waves: elementary rising-tone emissions and mini harmonics
- Key Factors Determining Nightside Energetic Electron Losses Driven by Whistler‐Mode Waves
- Modeling the Global Distribution of Chorus Wave Induced Relativistic Microburst Spatial Characteristics
- Fine Structure of Magnetospheric Magnetosonic Waves: 1. Elementary Rising‐Tone Emissions Within Individual Harmonic
- Relativistic Electron Precipitation Events Driven by Solar Wind Impact on the Earth's Magnetosphere
- Global Survey of Energetic Electron Precipitation at Low Earth Orbit Observed by ELFIN
- Simulating the Earth's Outer Radiation Belt Electron Fluxes and Their Upper Limit: A Unified Physics‐Based Model Driven by the AL Index
- Generation and Impacts of Whistler‐Mode Waves During Energetic Electron Injections in Jupiter's Outer Radiation Belt
- Imbalanced Regressive Neural Network Model for Whistler‐Mode Hiss Waves: Spatial and Temporal Evolution
- Statistical Survey of Interchange Events in the Jovian Magnetosphere Using Juno Observations
- Survey of Whistler‐Mode Wave Amplitudes and Frequency Spectra in Jupiter's Magnetosphere
- Ray Tracing of Whistler Mode Waves in Jupiter's Magnetosphere
- Modeling Global Electron Precipitation Driven by Whistler Mode Waves: Integrating Physical and Deep Learning Approaches