Your search keyword '"John Dombeck"' showing total 4 results

1. An evaluation of space weather conditions for FORMOSAT-3 satellite anomalies

Author

Han-Wen Shen, Jih-Hong Shue, John Dombeck, and Tsung-Ping Lee

Subjects

Satellite anomaly, FORMOSAT-3, Low earth orbit, Space weather, Geomagnetic activity, Solar cycle, Geography. Anthropology. Recreation, Geodesy, QB275-343, Geology, QE1-996.5

Abstract

Abstract The variable electromagnetic environment in geospace plays a crucial role in influencing the occurrence probability of satellite anomalies. FORMOSAT-3 (FS3) is a Low-Earth-Orbit (LEO) mission, which consists of six identical microsatellites that orbit in the altitude of 700–800 km and with an inclination of 72°. The dependences of the FS3 satellite anomalies on space weather conditions have not been investigated in the past. With an exception of a small number of extremely high geomagnetic events, we find that the occurrence rate of the FS3 anomalies is negatively correlated with the level of geomagnetic activity. Moreover, the relationship between numbers of anomalies and sunspots is also anti-correlated. A superposed epoch analysis demonstrates that the intensity of galactic cosmic rays (GCR) is relatively high at the times of the anomalies. All these results infer that the FS3 anomalies predominantly occurred under the conditions associated with low solar activity. The possible main cause for the FS3 anomalies is high-energy trapped protons or GCR. In summary, this paper presents a statistical result that a satellite can be prone to suffer an anomaly under low solar or geomagnetic activity.

Published

2021

2. Global Alfvén Wave Power in the Auroral Zone in Relation to the AE Index

Author

Andreas Keiling, Scott Thaller, John Wygant, and John Dombeck

Published

2019

3. Simultaneous ground and satellite observations of discrete auroral arcs, substorm aurora, and Alfvénic aurora with FAST and THEMIS GBO

Author

Christopher A. Colpitts, Sahel Hakimi, Cynthia A. Cattell, John Dombeck, and Michael Maas

Published

2013

4. Spatial Distribution of Particle Precipitation in Terms of Energy Channels under Different Geomagnetic Conditions

Author

Han-Wen Shen, Jih-Hong Shue, John Dombeck, and Hsien-Ming Li

Subjects

Physics::Space Physics, Physics::Geophysics

Abstract

The geomagnetic activity can modulate the number and energy fluxes of precipitation and their spatial distributions. Most previous studies examined precipitation in terms of energy spectrum types associated with quasi-static potential structures (QSPS) acceleration, Alfvénic acceleration, and wave scattering under various geomagnetic conditions. In this study, we instead categorize precipitation according to energy channels of particles. The spatial distribution of the precipitation for various energy channels is also derived under different geomagnetic conditions. Our results indicate that regardless of active and quiet times, low-energy (high-energy) precipitation is mostly distributed on the dayside (nightside). By comparing with past results, we infer that electron precipitation is mainly caused by QSPS and Alfvénic acceleration for most cases; however, the high-energy electrons during quiet times are predominantly created by wave scattering. For high-energy precipitation, the dawn-dusk asymmetry of the spatial distribution during active times is found to be opposite of that during quiet times. Based on their spatial distributions, we suggest that the high-energy precipitation during quiet times is dominated by the curvature and gradient drifts, while that during active times is mainly affected by physical processes related to substorms in the magnetotail.

Published

2020