Title :
Nuclear Particle Spectrometers for Satellites and Space Probes
Author_Institution :
The University of Chicago Laboratories for Applied Sciences Chicago 37, Illinois
fDate :
6/1/1962 12:00:00 AM
Abstract :
A series of particle detectors have been used by the University of Chicago in the cosmic ray research program. The first of the series used a grouping of seven methane-argon semiproportional counters. Of the two balloon-borne spectrometers one used a thin (0.358 gms-cm-2) and a thick (13.53 gms-cm-2) CsI(Tl) scintillator and the associated photomultiplier tubes, while the other used a thin CsI(Tl) (0.716 gms-cm-2) scintillator and a Cerenkov counter (1/2-in. thick lucite) with their associated photomultiplier tubes. The first of these spectrometers was used to obtain the cosmic ray spectrum over the charge range of 6 ¿ Z ¿ 26 and the energy range of 50 to 500 Mev/ nucleon while the second spectrometer was used over the same charge range but the energy range was from 400 Mev/nucleon to 10 Bev/nucleon. The Mariner A spectrometer is similar in principle to the low energy balloon-borne spectrometer but it operated over a slightly different energy and charge range. The charge range was Li, Be, B, C, N, and O, while the energy range was from 44 to 112 Mev/nucleon for Li7 and from 23.1 to 220 Mev/nucleon for O16. The Mariner instrument uses a gold-silicon diode to provide -(dE/dx) information and it uses a photodiode to detect light pulses from the thick CsI(Tl) s cintillator.
Keywords :
Atomic measurements; Battery powered vehicles; Belts; Cosmic rays; Instruments; Laboratories; Radiation detectors; Satellites; Spectroscopy; Telescopes;
Journal_Title :
Nuclear Science, IRE Transactions on
DOI :
10.1109/TNS2.1962.4316019