Capability of the CALET experiment for measuring elemental abundances of galactic cosmic ray nuclei heavier than nickel (Z=28)

B. F. Rauch; W. R. Binns; M. H. Israel; P. S. Marrocchesi; Y. Shimizu; Shoji Torii

doi:10.7529/ICRC2011/V06/0690

Capability of the CALET experiment for measuring elemental abundances of galactic cosmic ray nuclei heavier than nickel (Z=28)

B. F. Rauch^*, W. R. Binns, M. H. Israel, P. S. Marrocchesi, Y. Shimizu, Shoji Torii

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

6 Citations (Scopus)

Abstract

The CALorimetric Electron Telescope (CALET) is an imaging calorimeter planned for launch to the International Space Station (ISS) in 2013. The instrument consists of a segmented plastic scintillator charge measuring module, an imaging calorimeter consisting of 8 scintillating fiber planes with a total of 3 radiation lengths of tungsten plates interleaved with the fiber planes, and a total absorption calorimeter consisting of crossed lead tungstate (PWO) logs with a total of 27 radiation lengths depth. The primary objectives of the experiment are to measure electron energy spectra from 1 GeV to 20 TeV, to detect gamma-rays over the energy range from 10 GeV to 10 TeV, and to measure the energy spectra of nuclei from protons through iron. In this paper we discuss the capabilities of the instrument for measuring the abundances of nuclei heavier than nickel (Z=28). In particular we will present the maximum charge that can be detected due to instrument dynamic range, the expected charge resolution, and an estimate of the numbers of events expected in 5 years of space flight in the ISS 51.6 degree inclination orbit.

Original language	English
Title of host publication	Proceedings of the 32nd International Cosmic Ray Conference, ICRC 2011
Publisher	Institute of High Energy Physics
Pages	355-358
Number of pages	4
Volume	6
DOIs	https://doi.org/10.7529/ICRC2011/V06/0690
Publication status	Published - 2011
Event	32nd International Cosmic Ray Conference, ICRC 2011 - Beijing Duration: 2011 Aug 11 → 2011 Aug 18

Other

Other	32nd International Cosmic Ray Conference, ICRC 2011
City	Beijing
Period	11/8/11 → 11/8/18

Keywords

CALET
Cosmic ray
Ultra-heavy

ASJC Scopus subject areas

Nuclear and High Energy Physics

Access to Document

10.7529/ICRC2011/V06/0690

Cite this

Rauch, B. F., Binns, W. R., Israel, M. H., Marrocchesi, P. S., Shimizu, Y., & Torii, S. (2011). Capability of the CALET experiment for measuring elemental abundances of galactic cosmic ray nuclei heavier than nickel (Z=28). In Proceedings of the 32nd International Cosmic Ray Conference, ICRC 2011 (Vol. 6, pp. 355-358). Institute of High Energy Physics. https://doi.org/10.7529/ICRC2011/V06/0690

Capability of the CALET experiment for measuring elemental abundances of galactic cosmic ray nuclei heavier than nickel (Z=28). / Rauch, B. F.; Binns, W. R.; Israel, M. H. et al.
Proceedings of the 32nd International Cosmic Ray Conference, ICRC 2011. Vol. 6 Institute of High Energy Physics, 2011. p. 355-358.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Rauch, BF, Binns, WR, Israel, MH, Marrocchesi, PS, Shimizu, Y & Torii, S 2011, Capability of the CALET experiment for measuring elemental abundances of galactic cosmic ray nuclei heavier than nickel (Z=28). in Proceedings of the 32nd International Cosmic Ray Conference, ICRC 2011. vol. 6, Institute of High Energy Physics, pp. 355-358, 32nd International Cosmic Ray Conference, ICRC 2011, Beijing, 11/8/11. https://doi.org/10.7529/ICRC2011/V06/0690

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abstract = "The CALorimetric Electron Telescope (CALET) is an imaging calorimeter planned for launch to the International Space Station (ISS) in 2013. The instrument consists of a segmented plastic scintillator charge measuring module, an imaging calorimeter consisting of 8 scintillating fiber planes with a total of 3 radiation lengths of tungsten plates interleaved with the fiber planes, and a total absorption calorimeter consisting of crossed lead tungstate (PWO) logs with a total of 27 radiation lengths depth. The primary objectives of the experiment are to measure electron energy spectra from 1 GeV to 20 TeV, to detect gamma-rays over the energy range from 10 GeV to 10 TeV, and to measure the energy spectra of nuclei from protons through iron. In this paper we discuss the capabilities of the instrument for measuring the abundances of nuclei heavier than nickel (Z=28). In particular we will present the maximum charge that can be detected due to instrument dynamic range, the expected charge resolution, and an estimate of the numbers of events expected in 5 years of space flight in the ISS 51.6 degree inclination orbit.",

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AU - Torii, Shoji

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N2 - The CALorimetric Electron Telescope (CALET) is an imaging calorimeter planned for launch to the International Space Station (ISS) in 2013. The instrument consists of a segmented plastic scintillator charge measuring module, an imaging calorimeter consisting of 8 scintillating fiber planes with a total of 3 radiation lengths of tungsten plates interleaved with the fiber planes, and a total absorption calorimeter consisting of crossed lead tungstate (PWO) logs with a total of 27 radiation lengths depth. The primary objectives of the experiment are to measure electron energy spectra from 1 GeV to 20 TeV, to detect gamma-rays over the energy range from 10 GeV to 10 TeV, and to measure the energy spectra of nuclei from protons through iron. In this paper we discuss the capabilities of the instrument for measuring the abundances of nuclei heavier than nickel (Z=28). In particular we will present the maximum charge that can be detected due to instrument dynamic range, the expected charge resolution, and an estimate of the numbers of events expected in 5 years of space flight in the ISS 51.6 degree inclination orbit.

AB - The CALorimetric Electron Telescope (CALET) is an imaging calorimeter planned for launch to the International Space Station (ISS) in 2013. The instrument consists of a segmented plastic scintillator charge measuring module, an imaging calorimeter consisting of 8 scintillating fiber planes with a total of 3 radiation lengths of tungsten plates interleaved with the fiber planes, and a total absorption calorimeter consisting of crossed lead tungstate (PWO) logs with a total of 27 radiation lengths depth. The primary objectives of the experiment are to measure electron energy spectra from 1 GeV to 20 TeV, to detect gamma-rays over the energy range from 10 GeV to 10 TeV, and to measure the energy spectra of nuclei from protons through iron. In this paper we discuss the capabilities of the instrument for measuring the abundances of nuclei heavier than nickel (Z=28). In particular we will present the maximum charge that can be detected due to instrument dynamic range, the expected charge resolution, and an estimate of the numbers of events expected in 5 years of space flight in the ISS 51.6 degree inclination orbit.

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Capability of the CALET experiment for measuring elemental abundances of galactic cosmic ray nuclei heavier than nickel (Z=28)

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