FLUKA Calculation of the Neutron Albedo Encountered at Low Earth Orbits

Author

Claret, Arnaud ; Brugger, M. ; Combier, Natacha ; Ferrari, A. ; Laurent, Philippe

Author_Institution

DSM, CEA-Saclay, Gif-sur-Yvette, France

Volume

61

Issue

6

fYear

2014

fDate

Dec. 2014

Firstpage

3363

Lastpage

3370

Abstract

This paper presents Monte-Carlo simulations based on the Fluka code aiming to calculate the contribution of the neutron albedo at a given date and altitude above the Earth chosen by the user. The main input parameters of our model are the solar modulation affecting the spectra of cosmic rays, and the date of the Earth´s geomagnetic field. The results consist in a two-parameter distribution, the neutron energy and the angle to the tangent plane of the sphere containing the orbit of interest, and are provided by geographical position above the Earth at the chosen altitude. This model can be used to predict the temporal variation of the neutron flux encountered along the orbit, and thus constrain the determination of the instrumental background noise of space experiments in low earth orbit.

Keywords

Monte Carlo methods; albedo; cosmic ray energy spectra; cosmic ray interactions; cosmic ray neutrons; neutron flux; Earth geomagnetic field; FLUKA calculation; Fluka code; Monte-Carlo simulations; cosmic ray spectra; geographical position; input parameters; instrumental background noise; low earth orbit; neutron albedo; neutron energy; neutron flux; orbit of interest; solar modulation; space experiments; tangent plane angle; temporal variation; two-parameter distribution; Atmospheric modeling; Cosmic rays; Low earth orbit satellites; Monte Carlo methods; Neutrons; Albedo; FLUKA; cosmic rays; low earth orbit; neutrons;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2014.2361031

Filename

6935015