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A simulation study of Top and Bottom Counting Detectors in ISS-CREAM experiment for cosmic ray electron physics
- Authors
- Park, JM[Park, J. M.]; Amare, Y[Amare, Y.]; Anderson, T[Anderson, T.]; Angelaszek, D[Angelaszek, D.]; Anthony, N[Anthony, N.]; Arnold, H[Arnold, H.]; Choi, GH[Choi, G. H.]; Copley, M[Copley, M.]; Coutu, S[Coutu, S.]; Derome, L[Derome, L.]; Ebongue, C[Ebongue, C.]; Eraud, L[Eraud, L.]; Faddis, I[Faddis, I.]; Han, JH[Han, J. H.]; Howley, IJ[Howley, I. J.]; Huh, HG[Huh, H. G.]; Hwang, YS[Hwang, Y. S.]; Hyun, HJ[Hyun, H. J.]; Im, S[Im, S.]; Jeon, HB[Jeon, H. B.]; Jeon, JA[Jeon, J. A.]; Jeong, S[Jeong, S.]; Kang, SC[Kang, S. C.]; Kim, DY[Kim, D. Y.]; Kim, HJ[Kim, H. J.]; Kim, KC[Kim, K. C.]; Kim, MH[Kim, M. H.]; King, P[King, P.]; Lee, HY[Lee, H. Y.]; Lee, J[Lee, J.]; Lee, MH[Lee, M. H.]; Liang, J[Liang, J.]; Link, JT[Link, J. T.]; Lutz, L[Lutz, L.]; Menchaca-Rocha, A[Menchaca-Rocha, A.]; Mitchell, JW[Mitchell, J. W.]; Morton, S[Morton, S.]; Nester, M[Nester, M.]; Nutter, S[Nutter, S.]; Ofoha, O[Ofoha, O.]; Park, H[Park, H.]; Park, IH[Park, I. H.]; Picot-Clemente, N[Picot-Clemente, N.]; Seo, ES[Seo, E. S.]; Smith, JR[Smith, J. R.]; Walpole, P[Walpole, P.]; Weinmann, RP[Weinmann, R. P.]; Wu, J[Wu, J.]; Yon, B[Yon, B.]; Yoon, YS[Yoon, Y. S.]
- Issue Date
- 15-Nov-2018
- Publisher
- ELSEVIER SCI LTD
- Keywords
- Cosmic rays; CREAM; ISS-CREAM; e/p Separation; TDC/BCD
- Citation
- ADVANCES IN SPACE RESEARCH, v.62, no.10, pp.2939 - 2944
- Indexed
- SCIE
SCOPUS
- Journal Title
- ADVANCES IN SPACE RESEARCH
- Volume
- 62
- Number
- 10
- Start Page
- 2939
- End Page
- 2944
- ISSN
- 0273-1177
- Abstract
- The Cosmic Ray Energetics and Mass experiment at the International Space Station (ISS-CREAM) is developed for studying the origin, acceleration and propagation mechanism of high energy cosmic rays. The Top and Bottom Counting Detectors (TCD/BCD), sub-detectors of the ISS-CREAM instrument, are developed for electron/gamma-ray physics. The TCD/BCD help distinguish electrons from protons by comparing the hit and shower width distributions for electrons and protons. The e/p separation capability of the TCD/BCD is studied by using the GEANT3 simulation package, and optimal parameters for the e/p separation are obtained. (C) 2017 COSPAR. Published by Elsevier Ltd. All rights reserved.
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