A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991

A long duration balloon flight instrument for Max 1991 designed to study the acceleration of greater than 10 MeV ions and greater than 15 keV electrons in solar flares through high resolution spectroscopy of the gamma ray lines and hard X-ray and gamma ray continuum is described. The instrument, HIR...

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Main Authors: Lin, R. P., Curtis, D. W., Harvey, P., Pelling, R. M., Hurley, K., Primbsch, J. H., Duttweiler, F., Smith, D. M.
Format: Other/Unknown Material
Language:unknown
Published: 1988
Subjects:
SOLAR PHYSICS
Antarc*
Antarctica
Online Access:http://hdl.handle.net/2060/19890006506
id ftnasantrs:oai:casi.ntrs.nasa.gov:19890006506
record_format openpolar
spelling ftnasantrs:oai:casi.ntrs.nasa.gov:19890006506 2023-05-15T13:58:36+02:00 A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991 Lin, R. P. Curtis, D. W. Harvey, P. Pelling, R. M. Hurley, K. Primbsch, J. H. Duttweiler, F. Smith, D. M. Unclassified, Unlimited, Publicly available Nov 1, 1988 application/pdf http://hdl.handle.net/2060/19890006506 unknown Document ID: 19890006506 Accession ID: 89N15877 http://hdl.handle.net/2060/19890006506 No Copyright CASI SOLAR PHYSICS NASA, Goddard Space Flight Center, Max 1991: Flare Research at the Next Solar Maximum. Workshop 1: Scientific Objectives; p 262-278 1988 ftnasantrs 2019-07-21T09:19:37Z A long duration balloon flight instrument for Max 1991 designed to study the acceleration of greater than 10 MeV ions and greater than 15 keV electrons in solar flares through high resolution spectroscopy of the gamma ray lines and hard X-ray and gamma ray continuum is described. The instrument, HIREGS, consists of an array of high-purity, n-type coaxial germanium detectors (HPGe) cooled to less than 90 K and surrounded by a bismuth germanate (BGO) anticoincidence shield. It will cover the energy range 15 keV to 20 MeV with keV spectral resolution, sufficient for accurate measurement of all parameters of the expected gamma ray lines with the exception of the neutron capture deuterium line. Electrical segmentation of the HPGe detector into a thin front segment and a thick rear segment, together with pulse-shape discrimination, provides optimal dynamic range and signal-to-background characteristics for flare measurements. Neutrons and gamma rays up to approximately 0.1 to 1 GeV can be detected and identified with the combination of the HPGe detectors and rear BGO shield. The HIREGS is planned for long duration balloon flights (LDBF) for solar flare studies during Max 1991. The two exploratory LDBFs carried out at mid-latitudes in 1987 to 1988 are described, and the LDBFs in Antarctica, which could in principle provide 24 hour/day solar coverage and very long flight durations (20 to 30 days) because of minimal ballast requirements are discussed. Other/Unknown Material Antarc* Antarctica NASA Technical Reports Server (NTRS)
institution Open Polar
collection NASA Technical Reports Server (NTRS)
op_collection_id ftnasantrs
language unknown
topic SOLAR PHYSICS
spellingShingle SOLAR PHYSICS
Lin, R. P.
Curtis, D. W.
Harvey, P.
Pelling, R. M.
Hurley, K.
Primbsch, J. H.
Duttweiler, F.
Smith, D. M.
A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991
topic_facet SOLAR PHYSICS
description A long duration balloon flight instrument for Max 1991 designed to study the acceleration of greater than 10 MeV ions and greater than 15 keV electrons in solar flares through high resolution spectroscopy of the gamma ray lines and hard X-ray and gamma ray continuum is described. The instrument, HIREGS, consists of an array of high-purity, n-type coaxial germanium detectors (HPGe) cooled to less than 90 K and surrounded by a bismuth germanate (BGO) anticoincidence shield. It will cover the energy range 15 keV to 20 MeV with keV spectral resolution, sufficient for accurate measurement of all parameters of the expected gamma ray lines with the exception of the neutron capture deuterium line. Electrical segmentation of the HPGe detector into a thin front segment and a thick rear segment, together with pulse-shape discrimination, provides optimal dynamic range and signal-to-background characteristics for flare measurements. Neutrons and gamma rays up to approximately 0.1 to 1 GeV can be detected and identified with the combination of the HPGe detectors and rear BGO shield. The HIREGS is planned for long duration balloon flights (LDBF) for solar flare studies during Max 1991. The two exploratory LDBFs carried out at mid-latitudes in 1987 to 1988 are described, and the LDBFs in Antarctica, which could in principle provide 24 hour/day solar coverage and very long flight durations (20 to 30 days) because of minimal ballast requirements are discussed.
format Other/Unknown Material
author Lin, R. P.
Curtis, D. W.
Harvey, P.
Pelling, R. M.
Hurley, K.
Primbsch, J. H.
Duttweiler, F.
Smith, D. M.
author_facet Lin, R. P.
Curtis, D. W.
Harvey, P.
Pelling, R. M.
Hurley, K.
Primbsch, J. H.
Duttweiler, F.
Smith, D. M.
author_sort Lin, R. P.
title A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991
title_short A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991
title_full A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991
title_fullStr A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991
title_full_unstemmed A high-resolution gamma-ray and hard X-ray spectrometer for solar flare observations in Max 1991
title_sort high-resolution gamma-ray and hard x-ray spectrometer for solar flare observations in max 1991
publishDate 1988
url http://hdl.handle.net/2060/19890006506
op_coverage Unclassified, Unlimited, Publicly available
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_source CASI
op_relation Document ID: 19890006506
Accession ID: 89N15877
http://hdl.handle.net/2060/19890006506
op_rights No Copyright
_version_ 1766266961549852672

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