Your search keyword '"Slapak, Rikard"' showing total 3 results

1. The fate of O+ ions observed in the plasma mantle: particle tracing modelling and cluster observations.

Author

Schillings, Audrey, Gunell, Herbert, Nilsson, Hans, De Spiegeleer, Alexandre, Ebihara, Yusuke, Westerberg, Lars G., Yamauchi, Masatoshi, and Slapak, Rikard

Subjects

SOLAR wind, IONS, MAGNETIC fields, PARTICLES, MAGNETOSPHERE

Abstract

Ion escape is of particular interest for studying the evolution of the atmosphere on geological timescales. Previously, using Cluster-CODIF data, we investigated the oxygen ion outflow from the plasma mantle for different solar wind conditions and geomagnetic activity. We found significant correlations between solar wind parameters, geomagnetic activity (Kp index), and the O+ outflow. From these studies, we suggested that O+ ions observed in the plasma mantle and cusp have enough energy and velocity to escape the magnetosphere and be lost into the solar wind or in the distant magnetotail. Thus, this study aims to investigate where the ions observed in the plasma mantle end up. In order to answer this question, we numerically calculate the trajectories of O+ ions using a tracing code to further test this assumption and determine the fate of the observed ions. Our code consists of a magnetic field model (Tsyganenko T96) and an ionospheric potential model (Weimer 2001) in which particles initiated in the plasma mantle region are launched and traced forward in time. We analysed 131 observations of plasma mantle events in Cluster data between 2001 and 2007, and for each event 200 O+ particles were launched with an initial thermal and parallel bulk velocity corresponding to the velocities observed by Cluster. After the tracing, we found that 98 % of the particles are lost into the solar wind or in the distant tail. Out of these 98 %, 20 % escape via the dayside magnetosphere. [ABSTRACT FROM AUTHOR]

Published

2020

2. Estimating the fate of oxygen ion outflow from the high-altitude cusp.

Author

Krcelic, Patrik, Haaland, Stein, Maes, Lukas, Slapak, Rikard, and Schillings, Audrey

Subjects

SOLAR wind, MAGNETIC storms, OXYGEN, OXYGEN plasmas, MAGNETIC fields, IONS

Abstract

We have investigated the oxygen escape-to-capture ratio from the high-altitude cusp regions for various geomagnetic activity levels by combining EDI and CODIF measurements from the Cluster spacecraft. Using a magnetic field model, we traced the observed oxygen ions to one of three regions: plasma sheet, solar wind beyond a distant X-line or dayside magnetosheath. Our results indicate that 69 % of high-altitude oxygen escapes the magnetosphere, from which most escapes beyond the distant X-line (50 % of total oxygen flux). Convection of oxygen to the plasma sheet shows a strong dependence on geomagnetic activity. We used the Dst index as a proxy for geomagnetic storms and separated data into quiet conditions (Dst>0 nT), moderate conditions (0>Dst>-20 nT), and active conditions (Dst<-20 nT). For quiet magnetospheric conditions we found increased escape due to low convection. For active magnetospheric conditions we found an increase in both parallel velocities and convection velocities, but the increase in convection velocities is higher, and thus most of the oxygen gets convected into the plasma sheet (73 %). The convected oxygen ions reach the plasma sheet in the distant tail, mostly beyond 50 RE. [ABSTRACT FROM AUTHOR]

Published

2020

3. Erosion of Earth's atmosphere by ion escape: observations, a consistent model, and implications to the atmospheric evolution.

Author

Yamauchi, Masatoshi, Slapak, Rikard, Schillings, Audrey, Nilsson, Hans, and Dandouras, Iannisnnis.

Subjects

*ATMOSPHERE, *EROSION, *ESCAPES, *BIOLOGICAL evolution, *IONS

Published

2018