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
|
|---|
| Mars
| 24
|
| Sun: Coronal Mass Ejections
| 18
|
| Mars Express
| 13
|
| Sun: Heliosphere [H]
| 12
|
| Solar Wind [H]
| 12
|
| Solar Energetic Particles [H]
| 11
|
| Space Weather
| 9
|
| Ionosphere
| 9
|
| Astrophysics - Solar And Stellar Astrophysics [S]
| 6
|
| Planetary Ionospheres
| 5
|
| Planetary Magnetospheres
| 4
|
| Plasma
| 4
|
| Bow Shock
| 4
|
| Sun: Flares [S]
| 4
|
| Bepicolombo
| 4
|
| Solar Cycle
| 4
|
| Mars Ionosphere
| 4
|
| Physics - Space Physics [H]
| 4
|
| Solar Minimum
| 4
|
| Marsis
| 3
|
| Total Electron Content
| 3
|
| Sun: Radio Radiation [S]
| 3
|
| Sun: Particle Emission
| 3
|
| Interplanetary Turbulence [H]
| 3
|
| Space Plasmas [H]
| 3
|
| Sun: Corona [S]
| 3
|
| Ionosphere Of Mars
| 3
|
| Space Vehicles: Instruments
| 2
|
| Solar Orbiter
| 2
|
| Solar Coronal Mass Ejection Shocks
| 2
|
| Scandia Cavi
| 2
|
| Saturn
| 2
|
| Pressure Balance
| 2
|
| Physical Sciences
| 2
|
| Olympia Undae
| 2
|
| Mutual Radio Occultation
| 2
|
| Martian Ionosphere
| 2
|
| Marsis Mars Express
| 2
|
| Ionopause
| 2
|
| Interplanetary Shocks [H]
| 2
|
| Interplanetary Medium [H]
| 2
|
| Interplanetary Magnetic Field
| 2
|
| Inner Heliosphere
| 2
|
| Induced Magnetic Field
| 2
|
| Heliophysics
| 2
|
| Crosslink
| 2
|
| Cosmic Rays
| 2
|
| Comet Siding Spring
| 2
|
| Aspera-3
| 2
|
| Alfven Waves
| 2
|
| Volcanic Landforms
| 2
|
| Science Gaps
| 1
|
| Coordinated Measurements
| 1
|
| Comparative Aeronomy
| 1
|
| Rosetta
| 1
|
| Radio Sounding
| 1
|
| Radio Science
| 1
|
| Radio Occultation
| 1
|
| Radiation: Dynamics
| 1
|
| Radiation Monitor
| 1
|
| Radiation
| 1
|
| Radar Observations
| 1
|
| Radar Blackout
| 1
|
| Comets
| 1
|
| Plume
| 1
|
| Platform
| 1
|
| Plasma Void
| 1
|
| Surface Ices
| 1
|
| Planets And Satellites: Atmospheres
| 1
|
| Planetary Science
| 1
|
| Surface Processes
| 1
|
| Synthetic Aperture Radar
| 1
|
| Planetary Ion Outflow
| 1
|
| Planetary Bow Shocks
| 1
|
| Planetary Atmospheres
| 1
|
| Pickup Ions
| 1
|
| Tec Data Sets
| 1
|
| Aeronomy
| 1
|
| Phobos
| 1
|
| Particle Transport
| 1
|
| Parker Solar Probe
| 1
|
| Comet 67p
| 1
|
| Numerical Simulation
| 1
|
| New Horizons
| 1
|
| Comet
| 1
|
| Multi-spacecraft Measurements
| 1
|
| Morphometric And Topographic Data
| 1
|
| Mola
| 1
|
| Mhd Models
| 1
|
| Methods: Data Analysis
| 1
|
| Mercury
| 1
|
| Maven
| 1
|
| Martian Plasma System
| 1
|
| CMEs
| 1
|
| Martian Boundary
| 1
|
| Martian Boundaries
| 1
|
| Marsis Tec Assessment
| 1
|
| CME
| 1
|
| Techniques: Radar Astronomy
| 1
|
| Mars' Plasma Environment
| 1
|
| Mars Thermosphere
| 1
|
| Mars Reconnaissance Orbiter
| 1
|
| Mars Plasma System
| 1
|
| Mars Northern Polar Region
| 1
|
| The Mars Atmosphere And Volatile Evolution (maven) Mission
| 1
|
| Thermosphere
| 1
|
| Thermosphere Temperature
| 1
|
| Magnetohydrodynamics [S]
| 1
|
| Magnetohydrodynamical Simulations
| 1
|
| Low Sza
| 1
|
| Ionospheric Irregularities
| 1
|
| Ionospheres
| 1
|
| Titan
| 1
|
| Ionosphere Modeling
| 1
|
| Trace Gas Orbiter
| 1
|
| Charged Particle Radiation
| 1
|
| Venus
| 1
|
| Venus Flyby
| 1
|
| Interplanetary Physics [H]
| 1
|
| Berm
| 1
|
| Interplanetary Magnetic Fields [H]
| 1
|
| Visibility
| 1
|
| Interplanetary Coronal Mass Ejections
| 1
|
| Interplanetary Coronal Mass Ejection
| 1
|
| Interactions With Solar Wind Plasma And Fields
| 1
|
| Atmospheric Coupling
| 1
|
| Induced Magnetosphere
| 1
|
| Atmosphere-ionosphere Coupling
| 1
|
| Impact Craters
| 1
|
| Icme Transient
| 1
|
| Icme
| 1
|
| Housekeeping
| 1
|
| Heliospheric Modelling
| 1
|
| : Mars' Ionosphere
| 1
|
| H Ii Regions
| 1
|
| Ground-penetrating Radar
| 1
|
| Gravity Waves
| 1
|
| Global Hybrid Simulation
| 1
|
| Gle
| 1
|
| Gcrs
| 1
|
| Galactic Cosmic Rays
| 1
|
| Future Missions
| 1
|
| Future Exploration Article Types Perspective Article
| 1
|
| Future Exploration
| 1
|
| Forbush Effect
| 1
|
| Forbush Decrease
| 1
|
| Fast Solar Wind Stream
| 1
|
| Euv
| 1
|
| Esa-voyage2050
| 1
|
| Energy Deposition
| 1
|
| Energetic Particles
| 1
|
| Electron Precipitation
| 1
|
| Electron Holes
| 1
|
| Electron Depression
| 1
|
| Earth
| 1
|
| Dynamic Pressure
| 1
|
| Dose
| 1
|
| Deimos
| 1
|
| Crustal Magnetic Fields
| 1
|
| Cruise Science
| 1
|
| Cruise Phase
| 1
|
| Astrophysics - Earth And Planetary Astrophysics
| 1
|
| Astronomical And Space Sciences
| 1
|
| Sun: Activity
| 1
|
| Stream Interaction Regions
| 1
|
| Spe
| 1
|
| Spacecraft Mission
| 1
|
| Space Weather Forecasts
| 1
|
| Sun: Atmosphere [S]
| 1
|
| Cosmic Ray Detectors
| 1
|
| Space Vehicles
| 1
|
| Sun: Inner Heliosphere
| 1
|
| Sun: Institute For Space-earth Environmental Research (isee)
| 1
|
| Solar System Terrestrial Planets
| 1
|
| Corotating Streams
| 1
|
| Sun: Interplanetary Scintillation (ips)
| 1
|
| Solar Filament Eruptions
| 1
|
| Solar Euv
| 1
|
| Solar Eruptions
| 1
|
| Sun: Solar Wind [H]
| 1
|
| Sun: Three-dimensional (3d) Reconstructions
| 1
|
| Coordinated Multipoint Missions
| 1
|
| Seps
| 1
|
| Sep Events
| 1
|
| Sep
| 1
|
| Sees
| 1
|
| Scattering
| 1
|