New Vary‐Chap Scale Height Profile Retrieved From COSMIC Radio Occultation Data

The Global Navigation Satellite System radio occultation technique provides materials for the validation of a mathematical description of the topside ionosphere up to the low Earth orbit (LEO) satellite altitude. An attempt to represent the topside electron density profile is using α ‐Chapman function with a continuously varying scale height. In this study, the Vary‐Chap scale height profiles are obtained based on Constellation Observing System for Meteorology, Ionosphere, and Climate (COSMIC) electron density profiles from 1 January 2008 to 31 December 2013 and fitted by a shape function composed of two weighted patterns representing the ion and electron contributions of lower and higher altitudes. The associated fitting parameters a and b are analyzed to reveal their temporal and spatial features and variations along with enhancement of solar activity. The prominent dependence on latitudes, longitudes, the local time, the season, and the solar cycle shown in the parameters inspires future modeling of the Vary‐Chap scale height in constructing empirical topside ionospheric models.