Observations of high-energy electrons with the bets intrument and the future prospects

Shoji Torii; T. Tamura; N. Tateyama; K. Yoshida; T. Ouchi; J. Nishimura; T. Yamagami; Y. Saito; H. Murakami; T. Kobayashi; Y. Komori; K. Kasahara; T. Yuda

doi:10.1016/S0273-1177(02)00543-4

Observations of high-energy electrons with the bets intrument and the future prospects

Shoji Torii^*, T. Tamura, N. Tateyama, K. Yoshida, T. Ouchi, J. Nishimura, T. Yamagami, Y. Saito, H. Murakami, T. Kobayashi, Y. Komori, K. Kasahara, T. Yuda

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

We have developed the balloon-borne electron telescope with scintillating fibers (BETS) for the observation of cosmic-ray electrons in 10 -100 GeV. The detector is an imaging calorimeter consisting of the scintillating-fiber belts of 36 layers (each 280 mm wide) and the 8 plates of lead (each 5mm thick). The rejection of the background protons was performed with an efficiency of ~2000 using the shower imaging capability with high granulation. The balloon observations were carried out in 1997 and in 1998 at Sanriku Balloon Center (ISAS) in Japan. The observed electron flux is consistent around a few 10 GeV with the recent results reported by the HEAT group. Comparing the flux with theoretical expectations by a diffusion model, the best fit is obtained for the model of a diffusion coefficient of 2 × 10²⁸(E/GeV)⁰.3 cm²/sec in the SN rate of once per 30 years in the Galaxy. In January, 2003, a newly-developed scintillating fiber detector will be borne on the Polar Patrol Balloon (PPB) in Antarctica and exposed for 30 days to the cosmic radiations. We can increase the statistics of electron number in 10-1000 GeV by 10 times comparing to the present data.

Original language	English
Pages (from-to)	1273-1282
Number of pages	10
Journal	Advances in Space Research
Volume	30
Issue number	5
DOIs	https://doi.org/10.1016/S0273-1177(02)00543-4
Publication status	Published - 2002
Externally published	Yes

ASJC Scopus subject areas

Space and Planetary Science
Astronomy and Astrophysics

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10.1016/S0273-1177(02)00543-4

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@article{3890b8cf651b496492603fae97358bf8,

title = "Observations of high-energy electrons with the bets intrument and the future prospects",

abstract = "We have developed the balloon-borne electron telescope with scintillating fibers (BETS) for the observation of cosmic-ray electrons in 10 -100 GeV. The detector is an imaging calorimeter consisting of the scintillating-fiber belts of 36 layers (each 280 mm wide) and the 8 plates of lead (each 5mm thick). The rejection of the background protons was performed with an efficiency of ~2000 using the shower imaging capability with high granulation. The balloon observations were carried out in 1997 and in 1998 at Sanriku Balloon Center (ISAS) in Japan. The observed electron flux is consistent around a few 10 GeV with the recent results reported by the HEAT group. Comparing the flux with theoretical expectations by a diffusion model, the best fit is obtained for the model of a diffusion coefficient of 2 × 1028(E/GeV)0.3 cm2/sec in the SN rate of once per 30 years in the Galaxy. In January, 2003, a newly-developed scintillating fiber detector will be borne on the Polar Patrol Balloon (PPB) in Antarctica and exposed for 30 days to the cosmic radiations. We can increase the statistics of electron number in 10-1000 GeV by 10 times comparing to the present data.",

author = "Shoji Torii and T. Tamura and N. Tateyama and K. Yoshida and T. Ouchi and J. Nishimura and T. Yamagami and Y. Saito and H. Murakami and T. Kobayashi and Y. Komori and K. Kasahara and T. Yuda",

year = "2002",

doi = "10.1016/S0273-1177(02)00543-4",

language = "English",

volume = "30",

pages = "1273--1282",

journal = "Advances in Space Research",

issn = "0273-1177",

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TY - JOUR

T1 - Observations of high-energy electrons with the bets intrument and the future prospects

AU - Torii, Shoji

AU - Tamura, T.

AU - Tateyama, N.

AU - Yoshida, K.

AU - Ouchi, T.

AU - Nishimura, J.

AU - Yamagami, T.

AU - Saito, Y.

AU - Murakami, H.

AU - Kobayashi, T.

AU - Komori, Y.

AU - Kasahara, K.

AU - Yuda, T.

PY - 2002

Y1 - 2002

N2 - We have developed the balloon-borne electron telescope with scintillating fibers (BETS) for the observation of cosmic-ray electrons in 10 -100 GeV. The detector is an imaging calorimeter consisting of the scintillating-fiber belts of 36 layers (each 280 mm wide) and the 8 plates of lead (each 5mm thick). The rejection of the background protons was performed with an efficiency of ~2000 using the shower imaging capability with high granulation. The balloon observations were carried out in 1997 and in 1998 at Sanriku Balloon Center (ISAS) in Japan. The observed electron flux is consistent around a few 10 GeV with the recent results reported by the HEAT group. Comparing the flux with theoretical expectations by a diffusion model, the best fit is obtained for the model of a diffusion coefficient of 2 × 1028(E/GeV)0.3 cm2/sec in the SN rate of once per 30 years in the Galaxy. In January, 2003, a newly-developed scintillating fiber detector will be borne on the Polar Patrol Balloon (PPB) in Antarctica and exposed for 30 days to the cosmic radiations. We can increase the statistics of electron number in 10-1000 GeV by 10 times comparing to the present data.

AB - We have developed the balloon-borne electron telescope with scintillating fibers (BETS) for the observation of cosmic-ray electrons in 10 -100 GeV. The detector is an imaging calorimeter consisting of the scintillating-fiber belts of 36 layers (each 280 mm wide) and the 8 plates of lead (each 5mm thick). The rejection of the background protons was performed with an efficiency of ~2000 using the shower imaging capability with high granulation. The balloon observations were carried out in 1997 and in 1998 at Sanriku Balloon Center (ISAS) in Japan. The observed electron flux is consistent around a few 10 GeV with the recent results reported by the HEAT group. Comparing the flux with theoretical expectations by a diffusion model, the best fit is obtained for the model of a diffusion coefficient of 2 × 1028(E/GeV)0.3 cm2/sec in the SN rate of once per 30 years in the Galaxy. In January, 2003, a newly-developed scintillating fiber detector will be borne on the Polar Patrol Balloon (PPB) in Antarctica and exposed for 30 days to the cosmic radiations. We can increase the statistics of electron number in 10-1000 GeV by 10 times comparing to the present data.

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EP - 1282

JO - Advances in Space Research

JF - Advances in Space Research

IS - 5

ER -

Observations of high-energy electrons with the bets intrument and the future prospects

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