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
|
|---|
| Astrophysics - Solar And Stellar Astrophysics [S]
| 23
|
| Sun: Coronal Mass Ejections
| 23
|
| Mars
| 15
|
| Physics - Space Physics [H]
| 14
|
| Sun: Heliosphere [H]
| 13
|
| Sun: Flares [S]
| 12
|
| Space Weather
| 12
|
| Space Radiation
| 10
|
| Astrophysics - Earth And Planetary Astrophysics
| 9
|
| Solar Wind [H]
| 8
|
| Gcr
| 8
|
| Sun: Particle Emission
| 7
|
| Radiation
| 7
|
| Galactic Cosmic Rays
| 7
|
| Solar Energetic Particles [H]
| 7
|
| Sun: Activity
| 7
|
| Mars Exploration
| 6
|
| Msl
| 6
|
| Gamma Rays [S]
| 5
|
| Sun: X-rays [S]
| 5
|
| Instrumentation: Detectors
| 4
|
| Acceleration Of Particles
| 4
|
| Mars Mission
| 4
|
| Astrophysics - Instrumentation And Methods For Astrophysics
| 4
|
| Msl/rad
| 3
|
| Solar And Stellar Astrophysics
| 3
|
| Galactic Cosmic Radiation
| 3
|
| Planetary Space Weather
| 3
|
| Forbush Decrease
| 3
|
| Sun: Corona [S]
| 3
|
| Solar-terrestrial Relations
| 3
|
| Cosmic Rays
| 3
|
| Sun: Magnetic Fields
| 3
|
| Space Vehicles: Instruments
| 3
|
| Radiation Environment
| 3
|
| Albedo Radiation
| 3
|
| Sep
| 3
|
| Solar-planetary Interactions
| 2
|
| High-energy Cosmic Radiation
| 2
|
| Radiation Risk
| 2
|
| Planets And Satellites: Atmospheres
| 2
|
| Solar Physics [S]
| 2
|
| Corotating Streams
| 2
|
| Solar Event
| 2
|
| Icme
| 2
|
| Simulation
| 2
|
| Neutrons
| 2
|
| Charged Particles
| 2
|
| Plasma Physics
| 2
|
| Space Research
| 2
|
| Rad
| 2
|
| Geant4
| 2
|
| Moon
| 2
|
| Dosimetry
| 2
|
| Mars Science Laboratory
| 2
|
| Zenith Angle
| 2
|
| Msl Mission
| 2
|
| Particle Transport Model
| 2
|
| Space Physics
| 2
|
| Space Plasmas [H]
| 2
|
| Physics - Instrumentation And Detectors
| 1
|
| Particle Radiation In Space
| 1
|
| Particle Physics
| 1
|
| Particle Flux Directionality
| 1
|
| Particle Flux
| 1
|
| Oxia Planum
| 1
|
| Optical Observation
| 1
|
| Numerical Models
| 1
|
| Nowcasting
| 1
|
| New Horizons
| 1
|
| Neutron Spectrum
| 1
|
| Neutron Dose Rate
| 1
|
| Neutron Dose
| 1
|
| Neutron Detection
| 1
|
| Neutron
| 1
|
| Multispacecraft Measurement
| 1
|
| Msl Rad
| 1
|
| More Electric Aircraft (mea)
| 1
|
| Modeling
| 1
|
| Methods: Numerical
| 1
|
| Methods: Data Analysis
| 1
|
| Martian Radiation Environment
| 1
|
| Martian Magnetosheath
| 1
|
| Martian Exploration
| 1
|
| Mars: Atmosphere
| 1
|
| Mars Surface Radiation
| 1
|
| Mars Surface
| 1
|
| Mars Radiation
| 1
|
| Mars Orbit
| 1
|
| Magnetosphere
| 1
|
| Magnetohydrodynamics [S]
| 1
|
| Magnetohydrodynamic (mhd)
| 1
|
| Magnetic Flux Ropes
| 1
|
| Magnetic Fields
| 1
|
| Magnetic Clouds
| 1
|
| Lunar Surface
| 1
|
| Lunar Sample
| 1
|
| Lunar Orbit
| 1
|
| Lunar Exploration
| 1
|
| Low-earth Orbit
| 1
|
| Jet
| 1
|
| Inversion Technique
| 1
|
| Interplanetary Shocks [H]
| 1
|
| Interplanetary Shock
| 1
|
| Interplanetary Physics [H]
| 1
|
| Interplanetary Magnetic Field
| 1
|
| Interplanetary Coronal Mass Ejection
| 1
|
| Instabilities [H]
| 1
|
| In-flight Calibration
| 1
|
| Human Planetary Exploration
| 1
|
| Human Exploration
| 1
|
| High Energy Physics - Experiment
| 1
|
| Heliophysics
| 1
|
| Ground Level Enhancement (gle)
| 1
|
| Gle
| 1
|
| Geant4 Modeling
| 1
|
| Gcrs
| 1
|
| Gcr: Solar Modulations
| 1
|
| Gamma
| 1
|
| Gale Crater
| 1
|
| Future Missions
| 1
|
| Forecasting
| 1
|
| Forbush Secrease
| 1
|
| Fluxgate Magnetometer
| 1
|
| Exposure
| 1
|
| Exploration
| 1
|
| Esa-voyage2050
| 1
|
| Energetic Particles
| 1
|
| Energetic Particle Radiation
| 1
|
| Energetic Particle
| 1
|
| Effective Dose
| 1
|
| Earth
| 1
|
| Dose Rate On Martian Surface
| 1
|
| Dose Rate
| 1
|
| Deep Space
| 1
|
| Curiosity
| 1
|
| Counterjet
| 1
|
| Cosmogenic Nuclide
| 1
|
| Cosmic Rays (crs)
| 1
|
| Cosmic Ray
| 1
|
| Cosmic Radiation
| 1
|
| Cosmic Background Radiation
| 1
|
| Coordinated Multipoint Missions
| 1
|
| Comet 67p
| 1
|
| CMEs
| 1
|
| Chromium Isotope Anomaly
| 1
|
| Charged Particle Radiation
| 1
|
| Brain Simulation
| 1
|
| Atmosphere
| 1
|
| Astrobiology
| 1
|
| Aircraft
| 1
|
| Aerospace Electronics
| 1
|
| Active Galactic Nuclei
| 1
|
| Zero Offset
| 1
|
| Twist
| 1
|
| Transit Earth-mars
| 1
|
| Tianwen-1 Orbiter
| 1
|
| Sun: Radiation Assessment Detector (rad)
| 1
|
| Sun: Neutron Monitors
| 1
|
| Sun: Interplanetary Coronal Mass Ejections
| 1
|
| Sun: Interplanetary
| 1
|
| Sun: Galactic
| 1
|
| Sun: Forbush Decreases
| 1
|
| Sun: Evolution
| 1
|
| Sun: Cosmic Rays
| 1
|
| Sun: Astrophysics - Solar And Stellar Astrophysics
| 1
|
| Sun: Active Regions
| 1
|
| Stereo
| 1
|
| Space Radiation Environment
| 1
|
| Space Mission Design
| 1
|
| Space Exploration: Radiation
| 1
|
| Space Exploration
| 1
|
| Solar─terrestrial Relations
| 1
|
| Solar–terrestrial Relations
| 1
|
| Solar-terrestrial Interactions
| 1
|
| Solar System Terrestrial Planets
| 1
|
| Solar Eruptions
| 1
|
| Solar Energetic Particle Events
| 1
|
| Solar Energetic Particle (sep)
| 1
|
| Solar Cycles
| 1
|
| Solar Cycle
| 1
|
| Solar Coronal Mass Ejection Shocks
| 1
|
| Absorbed Dose Rate
| 1
|
| Shielding
| 1
|
| Seps
| 1
|
| Science Gaps
| 1
|
| Saturn
| 1
|
| Reliability
| 1
|
| Regolith
| 1
|
| Radio Galaxies
| 1
|
| Radiation: Dynamics
| 1
|
| Radiation Transport
| 1
|
| Radiation Shielding
| 1
|
| Radiation Protection
| 1
|
| Radiation Mechanisms: Thermal
| 1
|
| Radiation Mechanisms: Non-thermal
| 1
|
| Radiation Hazard
| 1
|
| Radiation Flux Measurement
| 1
|
| Radiation Flux Calculation
| 1
|
| Radiation Exposure
| 1
|
| Radiation Assessment Detector
| 1
|
| Quality Factor
| 1
|
| Production Rate
| 1
|
| Power Electronics
| 1
|
| Plasma
| 1
|
| Planets
| 1
|
| Planetary Radiation Environment
| 1
|
| Planetary Bow Shocks
| 1
|
| Planetary Atmospheres
| 1
|
| Planet Sci, Online Planetary-science, Environment, Materials-science
| 1
|
| Planet Sci Planetary-science, Materials-science, Environment
| 1
|
| Pivot Energy
| 1
|
| Physics - Plasma Physics [H]
| 1
|
| Acceleration
| 1
|
| Shock Waves
| 1
|