TY - CONF
T1 - The balloon-bone CALET prototype detector (bCALET)
AU - Ozawa, Shunsuke
AU - Torii, Shoji
AU - Kasahara, Katsuaki
AU - Murakami, Hiroyuki
AU - Akaike, Yosui
AU - Ueyama, Yoshitaka
AU - Ito, Daijiro
AU - Karube, Motohiko
AU - Kondo, Keinosuke
AU - Niita, Tae
AU - Tamura, Tadahisa
AU - Katayose, Yusaku
AU - Yoshida, Kenji
AU - Saito, Yoshitaka
AU - Fuke, Hideyuki
AU - Kawada, Jiro
PY - 2011/1/1
Y1 - 2011/1/1
N2 - The CALET payload will be installed in the Japanese Experiment Module Exposed Facility (JEM-EF) of the International Space Station (ISS). We developed a balloon-borne payload to evaluate the performance of CALET by carrying out precursor flights for the electron and gamma-ray observations. The first flight of bCALET-1 (balloon-borne CALET prototype) was carried out in 2006, and the enhanced version, bCALET-2, was successfully flown in August 2009. The bCALET-2 is composed of IMaging Calorimeter (IMC) and Total AbSorption Calorimeter (TASC). The IMC has an area of 256 mm × 256 mm, and is consisted of 8 layers of scintillating fiber belts with a total 3.6 radiation lengths of tungsten plates interleaved within the fiber planes for imaging the pre-shower development. TASC is consisted of crossed BGO logs (25 mm × 25 mm × 300 mm in each) with a total of 13.4 radiation lengths depth, for measuring the total energy deposit of incoming shower particles. The geometry factor is nearly 320 cm2sr over 10 GeV. We succeeded the observation of the electron energy spectrum in 1 GeV ∼ several 10 GeV electron and the atmospheric gamma-rays in 1 GeV ∼ a few 10 GeV, which are consistent with previous observations by BETS. The results are compared with simulations for confirming the detector performance.
AB - The CALET payload will be installed in the Japanese Experiment Module Exposed Facility (JEM-EF) of the International Space Station (ISS). We developed a balloon-borne payload to evaluate the performance of CALET by carrying out precursor flights for the electron and gamma-ray observations. The first flight of bCALET-1 (balloon-borne CALET prototype) was carried out in 2006, and the enhanced version, bCALET-2, was successfully flown in August 2009. The bCALET-2 is composed of IMaging Calorimeter (IMC) and Total AbSorption Calorimeter (TASC). The IMC has an area of 256 mm × 256 mm, and is consisted of 8 layers of scintillating fiber belts with a total 3.6 radiation lengths of tungsten plates interleaved within the fiber planes for imaging the pre-shower development. TASC is consisted of crossed BGO logs (25 mm × 25 mm × 300 mm in each) with a total of 13.4 radiation lengths depth, for measuring the total energy deposit of incoming shower particles. The geometry factor is nearly 320 cm2sr over 10 GeV. We succeeded the observation of the electron energy spectrum in 1 GeV ∼ several 10 GeV electron and the atmospheric gamma-rays in 1 GeV ∼ a few 10 GeV, which are consistent with previous observations by BETS. The results are compared with simulations for confirming the detector performance.
KW - Balloon-bone experiment
KW - CALET
KW - Electron
KW - Gamma-ray
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U2 - 10.7529/ICRC2011/V06/0821
DO - 10.7529/ICRC2011/V06/0821
M3 - Paper
AN - SCOPUS:84899551863
SP - 71
EP - 74
T2 - 32nd International Cosmic Ray Conference, ICRC 2011
Y2 - 11 August 2011 through 18 August 2011
ER -