铜闪烁光纤强子量热计塔原型

IEEE Conference on Nuclear Science Symposium and Medical Imaging Pub Date : 1992-10-25 DOI:10.1109/NSSMIC.1992.301223

D. Brown, R. Carey, S. Dye, E. Hazen, D. Higby, J. Miller, L. Sulak, J. Sullivan, W. Worstell, W. Brower, H. Paar, D. Kefford, R. Pisani, K. Segall, D. Wall, D. Winn, N. Akchurin, J. Langland, Y. Onel, J. Sandro, C. Bromberg, R. Miller, B. Moore, J. Reidy, W. Bugg, R. Kroeger, R. Wigmans, F. Ayer, C. Elder, H. Cohn, Y. Kamyshkov, F. Placil, M. Rennich, A. Savin, K. Shmakov, A. Smirnov, K. Young

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引用次数: 2

摘要

作者为高能强子对撞机探测器构建并测试了7个投影闪烁光纤-铜吸收体强子量热塔。每个塔包含2.25%的体积闪烁纤维，嵌入在铜层之间，深10.6 λ。得到了sigma /E=91%/平方根E的强子能量分辨率。当扫描穿过模块之间的边界和相对于光纤的一系列入射角时，介子表现出均匀的响应。能量在10到20 GeV之间的e/ pi比值为1.08±0.02，响应约为60 p.e./GeV。观测到从台座上很好地分辨出的μ子朗道分布

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Copper-scintillating fiber hadron calorimeter tower prototypes

The authors have constructed and tested seven projective scintillating fiber-copper absorber hadron calorimeter towers for high-energy hadron collider detectors. Each tower contained 2.25% by volume scintillating fibers, embedded between copper laminations, 10.6 lambda deep. A hadron energy resolution of sigma /E=91%/ square root E was obtained. Pions exhibited uniform response when scanned across boundaries between modules and through a range of incident angles with respect to the fibers. The e/ pi ratio is 1.08+or-0.02 for energies between 10 and 20 GeV, with a response of approximately 60 p.e./GeV. The muon Landau distributions well-resolved from pedestals were observed.<>

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IEEE Conference on Nuclear Science Symposium and Medical Imaging

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