Institute and Faculty of Physics, Saint Petersburg State University, Saint Petersburg, Russia
Received: 11 Jul 2014 – Revised: 23 Oct 2014 – Accepted: 28 Nov 2014 – Published: 06 Jan 2015
Abstract. Based on a data pool of 79 yearly files of space magnetometer data by Polar, Cluster, Geotail, and THEMIS satellites between 1995 and 2013, we developed a new quantitative model of the global shape of the magnetospheric equatorial current sheet as a function of the Earth's dipole tilt angle, solar wind ram pressure, and interplanetary magnetic field (IMF). This work upgrades and generalizes an earlier model of Tsyganenko and Fairfield (2004) by extending the modeling region to all local times, including the dayside sector. In particular, an essential feature of the new model is the bowl-shaped tilt-related deformation of the equatorial surface of minimum magnetic field, similar to that observed at Saturn, whose existence in the Earth's magnetosphere has been demonstrated in our recent work (Tsyganenko and Andreeva, 2014).
Tsyganenko, N. A., Andreeva, V. A., and Gordeev, E. I.: Internally and externally induced deformations of the magnetospheric equatorial current as inferred from spacecraft data, Ann. Geophys., 33, 1-11, doi:10.5194/angeo-33-1-2015, 2015.