Skip to main content

Plasmasphere monitoring for space weather impact prediction (PM4SWIP) - Nanosatellites for Space Weather Monitoring

Running

Running

Organisational Unit
Activity Type
Implementation progress
0%
15 March 2022

Duration: 6 months

Objective

Space weather observations and prediction of expected disturbances on ground- and space-based infrastructures are critical for the safety and evolution of our modern society. Space weather events, like solar storms, can have crucial impact on navigation, communication, power grids and other electrical conducting infrastructures. Therefore, space weather predictions are of high importance, but recently lack a reliable estimation of the Geo-effectivity as well as detailed information for regions and systems potentially affected.  In the sun to earth interaction chain, the plasmasphere is a central source of information in respect to the Geo-effectivity of solar storms and not well covered until now. This is surprising since the compression and change of the plasmapause is a direct information source for the strength of the solar wind and solar storm impact. With our proposed idea “Plasmasphere Monitoring for space weather impact prediction” we want to suggest a mission concept to continuously monitor the movement/shift in the plasmapause boundary, using GNSS and DORIS signals as well as an onboard Langmuir probe on a satellite constellation of 3 CubeSats, orbiting at Polar orbits of about 10,000 km altitude. The radial location of the plasmapause is controlled by a combination of the co-rotational and solar wind-driven convectional electric fields and the size as well as shape of the plasmasphere is depending on the level of geomagnetic activity. Therefore, it represents an indicator of space weather events and early warning can be given to terrestrial and orbital users based on the measurements. Although thousands of ground GNSS receivers provide a continuous, but regional, monitoring of the ionosphere and plasmasphere (without distinction between both layers), the plasmasphere monitoring above 10,000 km height is never done and the data will be a unique source for ionosphere/plasmasphere model calibration at higher altitudes.

Contract number
4000137632
OSIP Idea Id
I-2021-04274
Related OSIP Campaign
Nanosats for Spaceweather monitoring
Subcontractors
DLR Gesellschaft fuer Raumfahrtanwendungen (GfR) mbH FRAUNHOFER GESELLSCHAFT
Main application area
Space Safety
Budget
100000€
PLASMASPHERE MONITORING FOR SPACE WEATHER IMPACT PREDICTION (PM4SWIP) - Nanosatellites for Space Weather Monitoring