在BaBar硅顶点跟踪器中观察到的新效应:解释和估计它们对探测器未来性能的影响

IEEE Nuclear Science Symposium Conference Record, 2005 Pub Date : 2006-04-01 DOI:10.1109/NSSMIC.2005.1596210

V. Re, M. Bondioli, M. Bruinsma, S. Curry, D. Kirkby, J. Berryhill, S. Burke, D. Callahan, C. Campagnari, A. Cunha, B. Dahmes, D. Hale, S. Kyre, J. Richman, J. Stoner, W. Verkerke, T. Beck, A. Eisner, J. Kroseberg, W. Lockman, G. Nesom, A. Seiden, P. Spradlin, M. Wilson, L. Winstrom, C. Bozzi, G. Cibinetto, L. Piemontese, D. Brown, E. Charles, S. Dardin, F. Goozen, A. Gritsan, L. Kerth, G. Lynch, N. Roe, C. Chen, C. Lae, D. Roberts, G. Simi, A. Lazzaro, F. Palombo, H. Snoek, L. Ratti, C. Angelini, G. Batignani, S. Bettarini, F. Bosi, F. Bucci, G. Calderini, M. Carpinelli, M. Ceccanti, R. Cenci, F. Forti, M. Giorgi, A. Lusiani, P. Mammini, P. Manfredi, G. Marchiori, M. Mazur, M. Morganti, F. Morsani, N. Neri, E. Paoloni, A. Profeti, M. Rama, G. Rizzo, J. Walsh, P. Elmer, O. Long, A. Perazzo, P. Burchat, A. Edwards, S. Majewski, B. Petersen, M. Bona, F. Bianchi, D. Gamba, P. Trapani, M. Bomben, L. Bosisio, C. Cartaro, F. Cossutti, G. Della Ricca, S. Dittongo, L. Lanceri, L. Vitale, M. Datta, A. Mihályi

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引用次数: 0

摘要

简要介绍了在PEP II的BaBar实验中使用的硅顶点跟踪器(SVT)。它由五层双面交流耦合硅带探测器组成，构成了BaBar跟踪系统的核心。经过六年的运行，出现了一些意想不到的效果。特别是，已经观察到原子读出芯片通道的基座发生了移位，这些通道最容易受到辐射。这种行为已经被理解并在Elettra (Trieste)用1-GeV电子辐照AToM芯片中重现，研究结果在这里给出。第二个意外的行为已经被检测到，包括在外层模块的偏置漏电流异常增加。这种效应与光束有关，但与辐射损伤没有直接联系，因为它不存在于内层。原因已经了解，结论在此提出。这种效应已在实验室中以定性的方式再现。在接下来的三年里，预计亮度将增加三倍，导致辐射和占用水平大大超过探测器的设计。根据新的观测结果，将未来辐射剂量和占用率的估计值与外推的探测器性能和寿命一起显示。升级方案，以处理增加的亮度和背景进行了讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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New effects observed in the BaBar silicon vertex tracker: interpretation and estimate of their impact on the future performance of the detector

The silicon vertex tracker (SVT) of the BaBar experiment at PEP II is briefly described. It consists of five layers of double-sided AC-coupled silicon strip detectors, constituting the core of the BaBar tracking system. After six years of operation, some unexpected effects have appeared. In particular, a shift in the pedestal for the channels of the AToM readout chips that are most exposed to radiation has been observed. The behavior has been understood and reproduced in AToM chip irradiations with 1-GeV electrons at Elettra (Trieste) and the results of the studies are presented here. A second unexpected behavior has been detected, consisting of an anomalous increase in the bias leakage current for the modules in the outer layers. The effect is beam-related but not directly linked to radiation damage, as suggested by the fact that it is not present in the inner layers. The cause has been understood and the conclusions are presented here. The effect has been reproduced in a qualitative way in the laboratory. Over the next three years the luminosity is predicted to increase by a factor of three, leading to radiation and occupancy levels significantly exceeding the detector design. Estimates of future radiation doses and occupancies are shown together with the extrapolated detector performance and lifetime, in light of the new observations. Upgrade scenarios to deal with the increased luminosity and backgrounds are discussed.

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IEEE Nuclear Science Symposium Conference Record, 2005

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