The effects of atmospheric dust and solar radiation on the dayside ionosphere of Mars derived from 17 years of Mars Express radio science observations

DOI: 
10.1016/j.icarus.2023.115565
Publication date: 
13/08/2023
Main author: 
Peter, Kerstin
IAA authors: 
González-Galindo, F.
Authors: 
Peter, Kerstin;Pätzold, M.;Montabone, L.;Thiemann, E.;González-Galindo, F.;Witasse, O.;Tellmann, S.;Bird, M. K.
Journal: 
Icarus
Publication type: 
Article
Volume: 
400
Pages: 
115565
Abstract: 
This work combines 17 years of Mars Express radio science (MaRS) observations with proxies for insolation and local/global atmospheric dust to investigate the combined and individual effects on the dayside ionosphere of Mars from the top down to the ionospheric base. <P />The increase in insolation from orbital apocenter to pericenter in combination with Mars' dust cycle causes an average rise of the whole photochemically dominated region of the dayside ionosphere, ranging from 13 km at the ionospheric base up to 22 km above the main peak during conditions without a global dust storm. The declining phase of the 2018 global dust storm was observed by MaRS on the southern hemisphere and close to pericenter. The observed lifting effect on the whole photochemically dominated region of the ionosphere from the increased insolation and the high local and global atmospheric dust levels exceeds that seen by MaRS from similar seasons during years without a global dust storm. <P />The average ionospheric peak altitude at the subsolar point rises for increasing levels of local atmospheric dust until a maximum elevation is reached. This maximum depends on the available insolation at the top of the planetary atmosphere. Further increases of the local atmospheric dust levels do not lead to a further rise of the average ionospheric peak altitude in the investigated data set. This indicates a limit for the warming/expansion of the lower neutral atmosphere and the consecutive lifting of the ionosphere based on the available insolation and explains why regional dust storms can cause a similar lifting of the ionospheric main peak region as global dust storms.
Database: 
ADS
URL: 
https://ui.adsabs.harvard.edu/#abs/2023Icar..40015565P/abstract
ADS Bibcode: 
2023Icar..40015565P
Keywords: 
Mars;Ionosphere;Dust cycle;Mars Express;Radio science