Abstract
The high−latitude ionosphere is characterised by plasma density irregularities with typical lengths in a wide range of scales (from ~1 m up to ~1000 km). The enhancement of these irregularities caused for instance by severe Space Weather conditions can affect trans−ionos− pheric communications between ground facilities and satellites. For this reason, an accurate characterisation of the dynamic properties of electron density and their variation with the geomagnetic activity level is of particular interest for the Space Weather especially at high latitudes. In this framework, taking advantage of high resolution in situ measurements by the recent ESA−Swarm space mission orbiting in the ionospheric F−layer, we study both the dynamical properties of the electron density and the scaling properties of the electron den− sity fluctuations at high latitudes in the Northern and Southern Hemispheres in response to changes in the geomagnetic activity levels via nonlinear techniques involving the first−order structure functions. Indeed, it has been shown that the turbulent character of the ionos− pheric plasma density plays an important role in the generation and dynamics of ionospheric plasma density irregularities and the study of the scaling properties of the electron density fluctuations permits us to characterise the possible turbulent state of the ionospheric elec− tron density. The obtained results are consistent with the turbulent character of the ionospheric dynamics, and with the presence of dif− ferent turbulent regimes that show a dependence on the geomagnetic activity levels, magnetic latitude and MLT values.
Highlights
In the last years the dependence of our society on the Global Navigation Satellite System (GNSS) has in− creased substantially
As the geomagnetic field is the main element of all the physical processes occurring in the magnetosphere− ionosphere system, and as the purpose of this work is to study the variations of the electron density and the scal− ing properties of its fluctuations at Swarm A altitudes under different geomagnetic activity levels, it comes nat− ural to move from NEC to a magnetic frame of reference
The maximum electron density is observed at noon between 60° and 70° of magnetic latitude, while the minimum lies in the night sector between 50° and 60° of magnetic latitude
Summary
In the last years the dependence of our society on the Global Navigation Satellite System (GNSS) has in− creased substantially. Critical applications, such as rail− way control, highway traffic management, precision agriculture, emergency response, commercial aviation, and marine navigation, require and depend on GNSS services. The accurate timing provided by Global Posi− tioning System (GPS), which is just one component of GNSS, facilitates everyday activities, such as banking, mobile phone operations, and even the control of power grids. As our national critical infrastructures and econ− omy are increasingly dependent on positioning, navi− gation, and timing services, our society is vulnerable to damages that can be caused by Space Weather on space−borne and ground−based technological systems.
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