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Stochastic particle acceleration by helical turbulence in solar flares
Gregory Fleishman
, Igor N. Toptygin
Center For Solar Terrestrial Research - Big Bear Solar Observatory
Research output
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Contribution to journal
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Article
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peer-review
12
Scopus citations
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Dive into the research topics of 'Stochastic particle acceleration by helical turbulence in solar flares'. Together they form a unique fingerprint.
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Keyphrases
Solar Flares
100%
Particle Acceleration
100%
Turbulence
100%
Stochastic Particles
100%
Helical Turbulence
100%
Helicity
66%
Magnetic Field
33%
Electric Field (E-field)
33%
Magnetohydrodynamics
33%
Particle Population
33%
Energy Release
16%
High Energy
16%
Electron Emission
16%
Charged Particles
16%
Thermal Energy
16%
Solar Corona
16%
Energy Partitioning
16%
Accelerated Particle
16%
Seed Particles
16%
Electron Beam
16%
Primary Energy
16%
Spatial Separation
16%
Large-scale Magnetic Fields
16%
Beam Formation
16%
DC Electric Field
16%
Helicity Density
16%
Linear Mode
16%
Random Phase
16%
Dreicer Field
16%
Proton Emission
16%
Particle Extraction
16%
Emission Site
16%
Physics
Solar Flare
100%
Magnetic Field
100%
Particle Acceleration
100%
Electric Fields
100%
Magnetohydrodynamics
66%
Charged Particle
33%
Solar Corona
33%
Electron Beam
33%
Earth and Planetary Sciences
Solar Flare
100%
Particle Acceleration
100%
Electric Field
100%
Magnetohydrodynamics
66%
Flaring
33%
Charged Particle
33%
Thermal Energy
33%
Emissions
33%
Solar Corona
33%
Electron Beam
33%
Material Science
Magnetohydrodynamics
100%
Density
50%