Add to ORKGA self-consistent approach to superthermal electron (SE) transport along closed field lines in the inner magnetosphere is used to examine the concept of plasmaspheric transparency, magnetospheric trapping, and SE energy deposition to the thermal electrons. The dayside SE population is generated both by photoionization of the thermosphere and by secondary electron production from impact ionization when the photoelectrons collide with upper atmospheric neutral particles. It is shown that a self-consistent approach to this problem produces significant changes, in comparison with other approaches, in the SE energy exchange between the plasmasphere and the two magnetically conjugate ionospheres. In particular, plasmaspheric transparency can vary...
The fundamental processes responsible for energy exchange between large-scale electromagnetic fields...
The electron temperature (Te) variation in the high-latitude ionosphere at altitudes between 120 and...
Models of ion flow in the topside ionosphere were developed. These models took both H(+) and O(+) in...
Superthermal electron transport along a geomagnetic field line is examined using two gyration-averag...
The superthermal electrons (SE) are the major energy contributor to the ionosphere and inner magneto...
Space plasmas are essentially collisionless systems out of thermal equilibrium, where enhanced popul...
There are two main theories for the origin of the diffuse auroral electron precipitation: first, pit...
Two major sources of ionization occur in the high latitude ionosphere : the electrons created by sol...
The effects of self-consistently including superthermal electrons in the definition of the ambipolar...
Both electron cyclotron harmonic (ECH) waves and whistler mode chorus waves resonate with electrons ...
Electrons play an important role in solar wind-planetary interactions. Electron impact ionization ha...
This paper discusses the major pathways of electron distribution function formation in the region of...
Coupling of source, transport, and sink processes produces a fairly accurate model for the macroscop...
The flow of thermal plasma between the upper ionosphere and magnetosphere arises as a natural conseq...
The precipitation of high-energy magnetospheric electrons (E greater than 500-600 electronvolts) in ...
The fundamental processes responsible for energy exchange between large-scale electromagnetic fields...
The electron temperature (Te) variation in the high-latitude ionosphere at altitudes between 120 and...
Models of ion flow in the topside ionosphere were developed. These models took both H(+) and O(+) in...
Superthermal electron transport along a geomagnetic field line is examined using two gyration-averag...
The superthermal electrons (SE) are the major energy contributor to the ionosphere and inner magneto...
Space plasmas are essentially collisionless systems out of thermal equilibrium, where enhanced popul...
There are two main theories for the origin of the diffuse auroral electron precipitation: first, pit...
Two major sources of ionization occur in the high latitude ionosphere : the electrons created by sol...
The effects of self-consistently including superthermal electrons in the definition of the ambipolar...
Both electron cyclotron harmonic (ECH) waves and whistler mode chorus waves resonate with electrons ...
Electrons play an important role in solar wind-planetary interactions. Electron impact ionization ha...
This paper discusses the major pathways of electron distribution function formation in the region of...
Coupling of source, transport, and sink processes produces a fairly accurate model for the macroscop...
The flow of thermal plasma between the upper ionosphere and magnetosphere arises as a natural conseq...
The precipitation of high-energy magnetospheric electrons (E greater than 500-600 electronvolts) in ...
The fundamental processes responsible for energy exchange between large-scale electromagnetic fields...
The electron temperature (Te) variation in the high-latitude ionosphere at altitudes between 120 and...
Models of ion flow in the topside ionosphere were developed. These models took both H(+) and O(+) in...