The connection between solar drivers and the Earth’s magnetosphere, ionosphere, and thermosphere (MIT) phenomena in the upper atmosphere is very complex and dependent on many processes, including energy-absorption, ionization, and dissociation of molecules due to variable X-ray and Extreme Ultra Violet (EUV) solar radiance. Moreover, the variable solar wind plasma combined with a favorable alignment of the Interplanetary Magnetic Field (IMF) can produce auroral particle precipitation at high latitudes, causing chemical reactions and enhanced Joule heating through collisions between electrically-charged and neutral particles. Consequences of upper-atmosphere conditions on human activity underscore the necessity to better understand and pred...
Multiple space geodetic techniques are capable of measuring effects caused by space weather events. ...
The Tenth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper atmospheric sciences, W...
The Ninth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper-atmosphere sciences, We...
The connection between solar drivers and the Earth’s magnetosphere, ionosphere, and thermosphere (MI...
The negative impacts of space weather conditions on human activity have become a vital concern over ...
The thermosphere and ionosphere (TI) system, which represent neutral and charged particles respectiv...
The thermosphere and ionosphere are two overlapping regions of the atmosphere that are tightly coupl...
The ionosphere, embedded in and tightly coupled to the thermosphere, is strongly influenced by coupl...
The ionosphere, on a global scale, is reasonably well understood from a climatology perspective. Ho...
RECENT ADVANCES AND PROSPECTS OF THE JSG1: Coupling Processes between Magnetosphere, Ionosphere, and...
How does solar wind energy flow through the Earth’s magnetosphere, how is it converted and distribut...
The advent of new satellite missions, ground-based instrumentation networks, and the development of ...
he magnetosphere is the region of space dominated by the magnetic field of the Earth. The size of th...
Presents the effects and interaction of Earth's atmospheric and plasma environments on one another b...
Multiple space geodetic techniques are capable of measuring effects caused by space weather events. ...
The Tenth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper atmospheric sciences, W...
The Ninth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper-atmosphere sciences, We...
The connection between solar drivers and the Earth’s magnetosphere, ionosphere, and thermosphere (MI...
The negative impacts of space weather conditions on human activity have become a vital concern over ...
The thermosphere and ionosphere (TI) system, which represent neutral and charged particles respectiv...
The thermosphere and ionosphere are two overlapping regions of the atmosphere that are tightly coupl...
The ionosphere, embedded in and tightly coupled to the thermosphere, is strongly influenced by coupl...
The ionosphere, on a global scale, is reasonably well understood from a climatology perspective. Ho...
RECENT ADVANCES AND PROSPECTS OF THE JSG1: Coupling Processes between Magnetosphere, Ionosphere, and...
How does solar wind energy flow through the Earth’s magnetosphere, how is it converted and distribut...
The advent of new satellite missions, ground-based instrumentation networks, and the development of ...
he magnetosphere is the region of space dominated by the magnetic field of the Earth. The size of th...
Presents the effects and interaction of Earth's atmospheric and plasma environments on one another b...
Multiple space geodetic techniques are capable of measuring effects caused by space weather events. ...
The Tenth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper atmospheric sciences, W...
The Ninth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper-atmosphere sciences, We...