Development of silica aerogel Cherenkov counter with n = 1.003 for electron veto

机译：电子否决权n = 1.003的硅胶气凝胶Cherenkov计数器的研制

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We are developing a new Cherenkov counter using a silica aerogel for the LEPS (laser electron photon at SPring-8) experiment in order to veto background positron-electron events. The veto counter is important to investigate more interesting hadronic events. We are using aerogels with a refractive index (n) of 1.03 or 1.008 in the present counter. In this case, not only electrons but also pions are removed. For the research of pion events, it is necessary for aerogel Cherenkov counter (AC) not to remove pions. We focus on aerogels with n = 1.003 as a solution to this problem. In the current study, we propose a new AC possessing enough detection efficiency. By using this AC, only positron-electrons would be removed.

机译：我们正在为LEPS（SPring-8的激光电子光子）实验开发一种使用二氧化硅气凝胶的新型Cherenkov计数器，以便否决本底正电子事件。否决权计数器对于调查更有趣的强子事件很重要。我们在本计数器中使用的折射率（n）为1.03或1.008的气凝胶。在这种情况下，不仅电子被去除，而且离子也被去除。为了研究小便事件，气凝胶切伦科夫计数器（AC）必须不清除小便。我们专注于n = 1.003的气凝胶作为该问题的解决方案。在当前的研究中，我们提出了一种具有足够检测效率的新型交流电。通过使用此交流电，将仅除去正电子。

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《Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 2011 IEEE》|2011年|p.209-211|共3页
会议地点 Valencia(ES)
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Sato, T.; Kawai, H.; Kishi, Y.; Kubo, M.; Mase, K.; Nakano, T.; Nakayama, H.; Ono, M.; Tabata, M.; Yosoi, M.;
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Graduate School of Science Chiba University Japan;

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1. Testing aerogel Cherenkov counters with n=1.05 using electrons and muons [J] . Barnyakov A. Yu, Barnyakov M. Yu, Beloborodov K. I., Instruments and Experimental Techniques . 2015,第1期

机译：使用电子和介子测试n = 1.05的气凝胶Cherenkov计数器
2. Fabrication of silica aerogel with n = 1.08 for e~+/μ~+ separation in a threshold Cherenkov counter of the J-PARC TREK/E36 experiment [J] . Makoto Tabata, Akihisa Toyoda, Hideyuki Kawai, Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2015,第sepa21期

机译：在J-PARC TREK / E36实验的阈值Cherenkov计数器中，制备用于e〜+ /μ〜+分离的n = 1.08的二氧化硅气凝胶
3. Silica aerogel Cherenkov counter for beta decay measurements [J] . G. Gervino, A. Lavagno, A. Scarfone, Nuclear Instruments & Methods in Physics Research . 2011,第1期

机译：二氧化硅气凝胶Cherenkov计数器用于β衰减测量
4. Development of silica aerogel Cherenkov counter with n = 1.003 for electron veto [C] . Sato T., Kawai H., Kishi Y., IEEE Nuclear Science Symposium and Medical Imaging Conference . 2011

机译：用n = 1.003为电子veto的硅气凝胶Cherenkov计数器的开发
5. Synthesis of selected electron donors and acceptors and study of inter/intramolecular electron transfer from ruthenium(II) complexes in solution, frozen matrix and silica aerogels as the basis for optical devices. [D] . Rawashdeh, Abdel Monem M. 2003

机译：选择性电子供体和受体的合成以及溶液，冷冻基质和二氧化硅气凝胶中钌（II）配合物作为光学器件基础的分子间/分子间电子转移的研究。
6. Compressible Thermally Insulating and Fire Retardant Aerogels through Self-Assembling Silk Fibroin Biopolymers Inside a Silica Structure—An Approach towards 3D Printing of Aerogels [O] . Hajar Maleki, Susan Montes, Nastaran Hayati-Roodbari, -1

机译：通过在二氧化硅结构内部自组装丝素蛋白生物聚合物可压缩隔热和阻燃的气凝胶—气凝胶的3D打印方法
7. Fabrication of silica aerogel with $n$ = 1.08 for $e^+/\mu ^+$ separation in a threshold Cherenkov counter of the J-PARC TREK/E36 experiment [O] . Tabata, Makoto, Toyoda, Akihisa, Kawai, Hideyuki, 2015

机译：制造二氧化硅气凝胶，$ n $ = 1.08，$ e ^ + / \ mu ^ + $ 在J-paRC TREK / E36实验的阈值Cherenkov计数器中分离
8. Test of a Silica Aerogel Threshold Cherenkov Counter for the TJNAF Hall A Spectrometers with 1-4 GeV/c Particles [R] . Perriono, R., Lagamba, L., Cisbani, E., 1998

机译：用于1-4 GeV / c颗粒的TJNaF a厅光谱仪的二氧化硅气凝胶阈值Cherenkov计数器的测试

Development of silica aerogel Cherenkov counter with n = 1.003 for electron veto

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