Open AccessReview of bubble detector response characteristics and results from space
Author(s) -
Brent J. Lewis,
M. B. Smith,
H. Ing,
H. R. Andrews,
R. Machrafi,
Leena Tomi,
Tristan Matthews,
L. M. Veloce,
Vyacheslav Shurshakov,
I.V. Tchernykh,
N. Khoshooniy
Publication year - 2011
Publication title -
radiation protection dosimetry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.392
H-Index - 72
eISSN - 1742-3406
pISSN - 0144-8420
DOI - 10.1093/rpd/ncr358
Subject(s) - detector , international space station , bubble , neutron , satellite , aerospace engineering , physics , space environment , neutron detection , nuclear physics , space (punctuation) , spectrometer , space research , nuclear engineering , environmental science , optics , computer science , engineering , astronomy , mechanics , operating system
A passive neutron-bubble dosemeter (BD), developed by Bubble Technology Industries, has been used for space applications. Both the bubble detector-personal neutron dosemeter and bubble detector spectrometer have been studied at ground-based facilities in order to characterise their response due to neutrons, heavy ion particles and protons. This technology was first used during the Canadian-Russian collaboration aboard the Russian satellite BION-9, and subsequently on other space missions, including later BION satellites, the space transportation system, Russian MIR space station and International Space Station. This paper provides an overview of the experiments that have been performed for both ground-based and space studies in an effort to characterise the response of these detectors to various particle types in low earth orbit and presents results from the various space investigations.