HelioWebА. V. Artemyev
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A[А. V. Artemyev]
AC["Associated Concepts (25)"]
AW["Authored Works (57)"]
CA["Linked Co-Authors (61)"]
CI["Linked Collaborating Institutions (40)"]
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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/0000-0001-8823-4474
- OpenAlex ID
- https://openalex.org/A5041184454 (API record)
Associated Concepts [?]
- Physics
- Quantum mechanics
- Nuclear physics
- Plasma
- Magnetic field
- Geology
- Electron
- Computational physics
- Magnetosphere
- Geophysics
- Thermodynamics
- Engineering
- Atomic physics
- Optics
- Chemistry
- Astronomy
- Organic chemistry
- Classical mechanics
- Ion
- Oceanography
- Mathematics
- Magnetohydrodynamics
- Geography
- Mechanics
- Van Allen radiation belt
Authored Works
sorted by decreasing year, and then by display-name
- Whistler-Mode Modulation by ULF Waves: Regimes of Wave-Particle Resonance Interactions.
- Whistler waves in the foreshock transients: statistical characteristics and regimes of wave-particle resonant interactions
- Whistler Waves in the Earth's Bow Shock: Properties, Origin and Applicability of Quasi-Linear Theory
- What Can We Learn about Magnetotail Mesoscale Dynamics from Observations at Lunar Orbit?
- Wavelength measurements of electron cyclotron harmonic waves in Earth's magnetotail
- Thin current sheet in the lunar distant magnetotail
- Statistics of Whistler-mode Waves in the Near-Earth Plasma Sheet
- Statistical Analysis of Whistler Waves in Pristine Solar Wind at 1 AU
- Solar wind coherent structures from MHD to sub-ion scales: PSP measurements at 0.17 au
- Solar Wind Control of Electron Isotropy Boundary Properties
- Remote sensing of EMIC and VLF wave-particle interactions with energetic particles and fields measurements from low altitude, polar-orbiting CubeSats.
- Recently Developed Analytical Results for Nonlinear Wave-Particle Interactions
- On the Role of Whistler-Mode Waves in Electron Interaction With Dipolarizing Flux Bundles
- On the Role of Ducted Whistler-mode Waves in Relativistic Electron Losses
- On the Importance of Whistler-Mode Wave Ducting in Relativistic Electron Precipitation
- On a Contribution of Nonlinear Resonant Effects to Diffusion Rates
- Nonresonant scattering of relativistic electrons by electromagnetic ion cyclotron waves in Earth's radiation belts
- Linear tearing instability in resistive-MHD current sheet: guide field, normal magnetic field, and plasma flow
- Kinetic-scale Current Sheets in the Solar Wind: Properties, Origin and Reconnection Onset
- Inner belt wisp precipitation measured by ELFIN: regimes of energetic electron scattering by VLF transmitter waves
- Global distribution of energetic electron precipitation observed by ELFIN in low Earth orbit
- First ELFIN Observations of Relativistic Electron Precipitation Driven by the Combined Effect of Whistler and EMIC Waves
- Excitation of Electron Acoustic Waves by electron beams in nonlinear Landau resonance with Whistler Waves
- Energetic Electron Precipitation Patterns in Earth's Inner Magnetosphere
- Energetic Electron Precipitation Driven by Whistler Mode Hiss, Plume Hiss, and Chorus During an ELFIN and THEMIS Conjunction
- Electron Precipitations as Driven by Interplanetary Shock Impact on the Earth's Magnetosphere
- Ducted Chorus Waves Cause Sub-Relativistic and RelativisticElectron Microbursts
- Bursty energetic electron precipitation by high-order resonance with very-oblique whistler-mode waves
- Whistler Wave Generation Around Interplanetary Shocks
- The mapping technique for modelling the nonlinear resonant interaction of electrons with transient whistler wave bursts
- Tens to hundreds of keV electron precipitation driven by kinetic Alfven waves associated with magnetotail injections
- Storm-time magnetospheric convection modes and drivers and their relation to non-storm times
- Statistics of Quasi-periodic Bursts of Electromagnetic Ion Cyclotron Waves driven by Compressional Ultra-low-frequency Waves
- Statistical Survey of Electron Cyclotron Harmonic Waves and Whistler Waves Modulated by Ultra-low-frequency Waves
- Role of ULF waves in relativistic electron loss by whistler-mode wave scattering
- On the kinetics of inter-penetration of plasmas on the boundaries of coronal holes
- On a transition between nonlinear and quasi-linear regimes of electron resonant interaction with whistler-mode waves
- Nonlinear precipitation blocking of relativistic electrons by large amplitude EMIC waves
- Kinetic-scale current sheets at 1 AU: origin, properties and reconnection conditions
- Kinetic Plasma Structures Associated with Substorm Auroral Beads by Space-Ground Coordinated Observations
- How do slow electron holes persist in the Earth's magnetosphere
- Helical Magnetic Cavities: Kinetic Model and Comparison with MMS Observations
- Global and Local Processes of Thin Current Sheet Formation during Substorm Growth Phase
- Global Distribution of ULF Wave Power at Earth and Relationship with Charged Particle Dynamics: Implications for Other Planetary Magnetospheres
- First results from the ELFIN mission and equatorial spacecraft conjunctions
- Fast variations of energetic electron fluxes in the Earths radiation belts as an indication of nonlinear wave-particle interaction
- Energetic electron precipitation driven by resonant scattering of quasi-periodic EMIC and whistler waves
- Electron microbursts induced by nonducted chorus waves
- ELFIN observations and modeling: Relativistic Electron Losses due to Resonant Chorus Wave Scattering
- ELFIN Observations of the Electron Isotropic Boundary
- ELFIN Observations of Energetic Electron Precipitation Driven by Nonlinear Landau Resonance with Oblique Whistler Waves
- Dependence of Nonlinear Effects on Whistler-mode Chorus Wave Bandwidth and Amplitude: A Perspective from Diffusion Coefficients
- Configuration of a magnetotail current sheet prior to magnetic reconnection
- Beam-driven Electron Cyclotron Harmonic Waves in Earth's Magnetotail
- Atmospheric and Ionospheric Impacts of Intense Relativistic Electron Precipitation from the Plasma Sheet and Radiation Belts Based on ELFIN CubeSat and MMS Observations
- Approaches for modeling of nonlinear electron resonances with whistler-mode waves
- Analytical Results for Simple Models of Nonlinear Wave-Particle Scattering
Linked Co-Authors
- A. Glocer
- A. I. Neishtadt
- A. Runov
- A. W. Breneman
- Ajay Lotekar
- Allison Jaynes
- C. Froment
- C. Wilkins
- Chae‐Woo Jun
- Chen Shi
- Chih‐Ping Wang
- D. L. Turner
- Dmitri Vainchtein
- Donglai Ma
- Ethan Tsai
- F. S. Mozer
- I. H. Hutchinson
- I. Y. Vasko
- Ilya Kuzichev
- J. M. Albert
- J. M. Weygand
- Jacob Bortnik
- Jiang Liu
- Jing‐Huan Li
- K. K. Khurana
- Karine Issautier
- Kazue Takahashi
- L. Capannolo
- L. Gan
- L. R. Lyons
- L. Zheng
- Lunjin Chen
- Luphi Gao
- M. F. Bashir
- M. Hartinger
- M. Moncuquet
- Man Hua
- Martin Archer
- Murong Qin
- Olga Alexandrova
- Q. Ma
- Q. Zong
- Richard B. Horne
- S. D. Bale
- S. R. Kamaletdinov
- T. Dudok de Wit
- T. Elsden
- Vassilis Angelopoulos
- W. Li
- X. Tao
- X. Zhang
- Xiaochen Shen
- Xiaofei Shi
- Xiaojia Zhang
- Xin An
- Xing Meng
- Y. Nishimura
- Yangyang Shen
- Zhonghua Xu
- Zixu Liu
- Е. Е. Григоренко
Linked Collaborating Institutions
- Auburn University, Alabama
- Austrian Institute of Space Science Research
- Boston University, Massachusetts
- British Antarctic Survey
- CAS, Institute of Geology and Geophysics
- Direction des Applications Militaires, Ile-de-France
- Drexel University, Pennsylvania
- Government College University Lahore, Pakistan
- Imperial College, London
- Indian Institute of Geomagnetism, Allahabad, India
- Jet Propulsion Laboratory
- Johns Hopkins University, Applied Physics Laboratory
- Laboratoire de Physique et de Chimie de l'Environnement et de l'Espace, Orleans
- Loughborough University, UK
- Massachusetts Institute of Technology
- NASA Goddard Space Flight Center, Maryland
- Nagoya University, Solar Terrestrial Environment Laboratory
- New Jersey Institute of Technology
- Observatoire de Paris, France
- Peking University, China
- RAS, Institute of Applied Physics, Novgorod
- RAS, Polar Geophysical Institute, Murmansk
- RAS, Space Research Institute, Moscow
- Saint Andrews University, UK
- Sodankyla Geophysical Observatory
- Space Science Institute, Colorado
- University of Calgary, Canada
- University of California, Berkeley
- University of California, Berkeley, Space Sciences Laboratory
- University of California, Los Angeles
- University of California, Los Angeles, Institute of Geophysics and Planetary Physics
- University of Colorado, Boulder
- University of Leicester, UK
- University of Oslo, Norway
- University of Science and Technology of China, Hefei
- University of Sheffield, UK
- University of Texas, Austin
- University of Texas, Dallas
- Virginia Polytechnic Institute and State University
- Wuhan University, China
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