A model for the geostationary electron environment: POLE, from 30 keV to 5.2 MeV

Author

Sicard-Piet, A. ; Bourdarie, S. ; Boscher, D. ; Friedel, R.H.W.

Author_Institution

CNES, 31400 Toulouse, Toulouse

fYear

2005

fDate

19-23 Sept. 2005

Abstract

In 2003, a model for the geostationary electron environment: POLE (particle ONERA-LANL environment) has been developed at ONERA/DESP. This model, based on the full range of Los Alamos National Laboratory geostationary satellites, covering the period 1976-2001, is valid from 30 KeV up to 2.5 MeV and takes into account the solar cycle variation. Over the period 1976 to present, three different detectors were flown: CPA (charged particle analyzer), SOPA (synchronous orbit particle analyzer) and ESP (energetic spectra for particles). The first two were studied to develop the first version of POLE (up to 2.5 MeV). Here, in order to extend the energy coverage of the model, we analyze the data of the third detector: ESP, where the electron detection covers the range 0.7 MeV-25.8 MeV. The new version thus obtained cover energies from 30 keV up to 5.2 MeV.

Keywords

artificial satellites; electron accelerators; AD 1976 to 2001; Los Alamos National Laboratory; ONERA/DESP; POLE; charged particle analyzer; electron detection; electron volt energy 30 keV to 5.2 MeV; energetic spectra; geostationary electron environment; geostationary satellites; particle ONERA-LANL environment; solar cycle variation; synchronous orbit particle analyzer; Data analysis; Detectors; Electronic mail; Electrons; Electrostatic precipitators; Extraterrestrial measurements; Laboratories; NASA; Satellites; Telephony;

fLanguage

English

Publisher

ieee

Conference_Titel

Radiation and Its Effects on Components and Systems, 2005. RADECS 2005. 8th European Conference on

Conference_Location

Cap d´Agde

ISSN

0379-6566

Print_ISBN

978-0-7803-9502-2

Electronic_ISBN

0379-6566

Type

conf

DOI

10.1109/RADECS.2005.4365580

Filename

4365580