His primary scientific interests are in Atmospheric sciences, Electron precipitation, Van Allen radiation belt, Ionosphere and Atmosphere. Mark A. Clilverd has included themes like Climatology and Earth's magnetic field in his Atmospheric sciences study. His Electron precipitation study combines topics in areas such as Riometer, Geomagnetic storm, Geophysics and Plasmasphere.
His research integrates issues of Substorm and Cyclotron in his study of Geophysics. His Van Allen radiation belt research incorporates themes from Computational physics, Electron, Hiss and Pitch angle. His Ionosphere research incorporates elements of Amplitude, Daytime, Electron density and Meteorology.
His primary areas of investigation include Atmospheric sciences, Electron precipitation, Van Allen radiation belt, Ionosphere and Geophysics. His Atmospheric sciences study combines topics from a wide range of disciplines, such as Geomagnetic storm, Earth's magnetic field and Atmosphere. His biological study spans a wide range of topics, including Local time, Riometer, Precipitation, Ionization and Substorm.
His Van Allen radiation belt research includes elements of Computational physics, Electron, Hiss and Astrophysics. In his research on the topic of Ionosphere, Geodesy is strongly related with Amplitude. Mark A. Clilverd works mostly in the field of Geophysics, limiting it down to topics relating to Plasmasphere and, in certain cases, Whistler and Field line, as a part of the same area of interest.
Mark A. Clilverd spends much of his time researching Atmospheric sciences, Electron precipitation, Van Allen radiation belt, Environmental science and Geophysics. In his work, Atmospheric model is strongly intertwined with Atmosphere, which is a subfield of Atmospheric sciences. His Electron precipitation research focuses on Ionization and how it relates to Magnetosphere.
His Van Allen radiation belt research is multidisciplinary, incorporating elements of Computational physics, Riometer, Electron, Ionosphere and Astrophysics. His Ionosphere research is multidisciplinary, relying on both Daytime, Solar flare and Solar zenith angle. His Geophysics research focuses on subjects like Local time, which are linked to Plasmasphere.
Mark A. Clilverd mainly investigates Electron precipitation, Van Allen radiation belt, Atmospheric sciences, Environmental science and Geophysics. Mark A. Clilverd interconnects Ionization, Scattering and Pitch angle in the investigation of issues within Electron precipitation. His Van Allen radiation belt research includes themes of Local time and Riometer, Electron, Ionosphere.
Mark A. Clilverd studies Stratosphere, a branch of Atmospheric sciences. Within one scientific family, Mark A. Clilverd focuses on topics pertaining to Astrophysics under Geophysics, and may sometimes address concerns connected to Relativistic particle. His Geomagnetic storm research is multidisciplinary, incorporating perspectives in Climatology and Meteorology, Space weather.
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Use of POES SEM-2 observations to examine radiation belt dynamics and energetic electron precipitation into the atmosphere
Craig J. Rodger;Mark A. Clilverd;Janet C. Green;Mai Mai Lam.
Journal of Geophysical Research (2010)
Solar forcing for CMIP6 (v3.2)
Katja Matthes;Katja Matthes;Bernd Funke;Monika E. Andersson;Luke Barnard.
Geoscientific Model Development (2017)
Impact of different energies of precipitating particles on NOx generation in the middle and upper atmosphere during geomagnetic storms
Esa Turunen;Pekka T. Verronen;Annika Seppälä;Craig J. Rodger.
Journal of Atmospheric and Solar-Terrestrial Physics (2009)
Large solar flares and their ionospheric D region enhancements
Neil R. Thomson;Craig J. Rodger;Mark A. Clilverd.
Journal of Geophysical Research (2005)
Geomagnetic activity and polar surface air temperature variability
A. Seppälä;A. Seppälä;C.E. Randall;Mark A. Clilverd;E. Rozanov.
Journal of Geophysical Research (2009)
Diurnal variation of ozone depletion during the October-November 2003 solar proton events
Pekka T. Verronen;Annika Seppälä;Mark A. Clilverd;Craig J. Rodger.
Journal of Geophysical Research (2005)
Missing driver in the Sun–Earth connection from energetic electron precipitation impacts mesospheric ozone
M. E. Andersson;P. T. Verronen;C. J. Rodger;M. A. Clilverd.
Nature Communications (2014)
Solar flare induced ionospheric D-region enhancements from VLF amplitude observations
Neil R. Thomson;Mark A. Clilverd.
Journal of Atmospheric and Solar-Terrestrial Physics (2001)
Origins of plasmaspheric hiss
Nigel P. Meredith;Richard B. Horne;Mark A. Clilverd;David Horsfall.
Journal of Geophysical Research (2006)
Energetic electron precipitation associated with pulsating aurora: EISCAT and Van Allen Probe observations
Y. Miyoshi;S. Oyama;S. Saito;S. Kurita.
Journal of Geophysical Research (2015)
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