We briefly describe the multifrequency multiple‐path radio system and illustrate its
observational capabilities by performing, as an example, the study of dynamic processes …

This paper investigates ionospheric response characteristics from multiple perspectives
based on globally distributed GNSS data and products, ionosonde data, FORMOSAT …

The high‐resolution thermosphere‐ionosphere‐electrodynamics general circulation model
has been used to investigate the response of F2 region electron density (Ne) at Millstone Hill …

This study examines the ionospheric changes associated with the solar eclipse of 21 August
2017. The effects associated with the passage of the eclipse shadow were observed more …

The ionospheric responses to the total solar eclipse on 2 July 2019 over low latitudes in
southern South America are presented. Ionosonde observations were used within the totality …

The results of observations of the critical frequency (fo F2), ionospheric F2 peak electron
density (N m F2) and peak height (hm F2) of the ionosphere over Kharkiv (Ukraine, 49.6° N …

Solar eclipses (SEs) cause a variety of processes in all geospheres. There is a decrease of
electron density, as well as electron, ion, and neutral temperature, in the ionosphere; the …

A solar eclipse (SE) provides a researcher with a rare opportunity to follow the dynamics of
the Earth's system (its shells)—the atmosphere, the ionosphere, and the magnetosphere …

Abstract Subject and Purpose. The unique natural phenomena which solar eclipses are can
activate coupling between the subsystems of the Earth–atmosphere–ionosphere …

The purpose of the work is to describe ionospheric effects of the August 11, 2018, partial
solar eclipse (SE) that occurred over the People's Republic of China as observed via GPS …