TY - JOUR
T1 - Quartz fibre calorimetry - Monte Carlo simulation
AU - Anzivino, G.
AU - Chumarovsky, Yu
AU - Contin, A.
AU - Danilov, M.
AU - Dellacasa, G.
AU - DeSalvo, R.
AU - Gavrilov, V.
AU - Golutvin, A.
AU - Gorodetzky, P.
AU - Helleboid, J. M.
AU - Isaev, V.
AU - Johnson, K. F.
AU - Juillot, P.
AU - Kuleshov, S.
AU - Lazic, D.
AU - Litvinsev, D.
AU - Lundin, M.
AU - Marino, M.
AU - Musso, A.
AU - Ratnikov, F.
AU - Rusinov, V.
AU - Stolin, V.
AU - Vinogradov, M.
PY - 1995/4/21
Y1 - 1995/4/21
N2 - Calorimeters based on silicon core fibres embedded into an absorber have been simulated by combining the GEANT 3.16 package and a proprietary routine describing Cherenkov photon production in optical fibres. The good agreement between simulation results and experimental data allows to study, with a high degree of confidence, the design of a prototype hadronic detector and of different calorimeter configurations to cover the very forward regions of an LHC experiment. © 1995.
AB - Calorimeters based on silicon core fibres embedded into an absorber have been simulated by combining the GEANT 3.16 package and a proprietary routine describing Cherenkov photon production in optical fibres. The good agreement between simulation results and experimental data allows to study, with a high degree of confidence, the design of a prototype hadronic detector and of different calorimeter configurations to cover the very forward regions of an LHC experiment. © 1995.
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U2 - 10.1016/0168-9002(94)01704-2
DO - 10.1016/0168-9002(94)01704-2
M3 - Article
SP - 380
EP - 385
JO - Nuclear Inst. and Methods in Physics Research, A
JF - Nuclear Inst. and Methods in Physics Research, A
SN - 0168-9002
ER -