Add to ORKGAbstract. An easy-to-use model to evaluate conductivities at high and middle latitudes in the height range 70–100 km is presented. It is based on electron density profiles obtained with the EISCAT VHF radar during 11 years and on the neu-tral atmospheric model MSIS95. The model uses solar zenith angle, geomagnetic activity and season as input parameters. It was mainly constructed to study the properties of Schu-mann resonances that depend on such conductivity profiles. Key words. Meteorology and atmospheric dynamics (mid-dle atmospheric dynamics) – Ionosphere (modeling and fore-casting; ionosphere-atmosphere interaction)
400-409This paper describes various techniques of ionospheric modelling including their applications...
A physical model of the coupled thermosphere and ionosphere has been used to determine the accuracy...
Since current empirical models specifying low-latitude electron density profiles severely underestim...
An easy-to-use model to evaluate conductivities at high and middle latitudes in the height range 7...
A photochemical equilibrium model of the high-latitude ionosphere has been developed. This model pro...
This work focuses on determining how effectively the upper atmosphere, as a medium, transmits the in...
A technique for estimating the large-scale spatial distribution of the height-integrated electrical ...
The relationship between electric fields, height-integrated conductivities and electric currents in ...
An apparent discrepancy is pointed out - at all heights, and by up to an order of magnitude - betwee...
A model of the spectrum of the electron density turbulent fluctuations in the Earth's midlatitude lo...
During the descent of the Huygens probe through the atmosphere of Titan, on January 14th, 2005, the ...
The electron temperature (Te) variation in the mid-latitude ionosphere at altitudes between 120 – 80...
The Earth's plasmasphere contributes essentially to total electron content (TEC) measurements 10 fr...
The Earth's plasmasphere contributes essentially to total electron content (TEC) measurements from g...
Abstract. Several authors have published models of aur-oral conductances in the past. Some of them a...
400-409This paper describes various techniques of ionospheric modelling including their applications...
A physical model of the coupled thermosphere and ionosphere has been used to determine the accuracy...
Since current empirical models specifying low-latitude electron density profiles severely underestim...
An easy-to-use model to evaluate conductivities at high and middle latitudes in the height range 7...
A photochemical equilibrium model of the high-latitude ionosphere has been developed. This model pro...
This work focuses on determining how effectively the upper atmosphere, as a medium, transmits the in...
A technique for estimating the large-scale spatial distribution of the height-integrated electrical ...
The relationship between electric fields, height-integrated conductivities and electric currents in ...
An apparent discrepancy is pointed out - at all heights, and by up to an order of magnitude - betwee...
A model of the spectrum of the electron density turbulent fluctuations in the Earth's midlatitude lo...
During the descent of the Huygens probe through the atmosphere of Titan, on January 14th, 2005, the ...
The electron temperature (Te) variation in the mid-latitude ionosphere at altitudes between 120 – 80...
The Earth's plasmasphere contributes essentially to total electron content (TEC) measurements 10 fr...
The Earth's plasmasphere contributes essentially to total electron content (TEC) measurements from g...
Abstract. Several authors have published models of aur-oral conductances in the past. Some of them a...
400-409This paper describes various techniques of ionospheric modelling including their applications...
A physical model of the coupled thermosphere and ionosphere has been used to determine the accuracy...
Since current empirical models specifying low-latitude electron density profiles severely underestim...