The table below shows the most common keywords used by the author. The letters in brackets after some keywords denote if the keyword corresponds to Solar Physics (S) or Heliospheric Physics (H).
| Keyword
| Occurrences
|
|---|
| Sun: Filaments [S]
| 30
|
| Sun: Corona [S]
| 19
|
| Magnetohydrodynamics [S]
| 16
|
| Sun: Magnetic Fields
| 15
|
| Astrophysics - Solar And Stellar Astrophysics [S]
| 13
|
| Sun: Coronal Mass Ejections
| 10
|
| Sun: Flares [S]
| 10
|
| Methods: Numerical
| 9
|
| Solar Activity
| 9
|
| Magnetic Reconnection
| 5
|
| Magnetohydrodynamical Simulations
| 5
|
| Solar Magnetic Reconnection
| 5
|
| Plasmas
| 4
|
| Sun: UV Radiation [S]
| 4
|
| Sun: Active Regions
| 3
|
| Astrophysics - Instrumentation And Methods For Astrophysics
| 3
|
| Solar Physics [S]
| 3
|
| Solar Coronal Loops [S]
| 2
|
| Gamma Rays [S]
| 2
|
| Solar Coronal Heating [S]
| 2
|
| Sun: X-rays [S]
| 2
|
| Magnetic Fields
| 2
|
| Instabilities [H]
| 2
|
| Hydrodynamics
| 2
|
| Sun: Photosphere [S]
| 2
|
| Supergranulation
| 2
|
| Sun: Chromosphere [S]
| 2
|
| The Sun [S]
| 2
|
| Techniques: Spectroscopic
| 1
|
| Waves
| 1
|
| Hardware: Power And Energy: Impact On The Environment
| 1
|
| Coronal Rain
| 1
|
| Computing Methodologies: Modeling And Simulation: Simulation Types And Techniques: Massively Parallel And High-performance Simulations
| 1
|
| Computer Science - Distributed
| 1
|
| Black Hole Physics
| 1
|
| Atomic
| 1
|
| X-ray Sources
| 1
|
| Sun: Atmosphere [S]
| 1
|
| Sun: Activity
| 1
|
| Acceleration Of Particles
| 1
|
| Solar Extreme Ultraviolet Emission [S]
| 1
|
| Solar Energetic Particles [H]
| 1
|
| Solar Active Region Filaments
| 1
|
| Relativistic Processes
| 1
|
| Radiative Magnetohydrodynamics
| 1
|
| Radiation Mechanisms: Thermal
| 1
|
| Quiet Sun
| 1
|
| Quiescent Solar Prominence
| 1
|
| Astrophysics - High Energy Astrophysical Phenomena [S]
| 1
|
| Physical Sciences
| 1
|
| Parallel
| 1
|
| Sun: Oscillations [S]
| 1
|
| Sun: Transition Region [S]
| 1
|