ADRIANO2测试光束的初步结果

Q3 Physics and Astronomy

Instruments Pub Date : 2022-09-22 DOI:10.3390/instruments6040049

Corrado Gatto, G. Blazey, A. Dychkant, J. Elam, M. Figora, Todd Fletcher, K. Francis, Ao Liu, S. Los, Cole Le Mahieu, A. Mane, J. Marquez, Michael J. Murray, E. Ramberg, C. Royon, M. Syphers, R. W. Young, V. Zutshi

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引用次数: 0

摘要

作为T1604合作研究计划的一部分，一种新型的高粒度双读出量热技术(ADRIANO2)正在开发中。(在第19届粒子物理量热学国际会议(CALOR 2022)上发表的演讲，苏塞克斯大学，苏塞克斯，英国，2022年5月16日至20日)。这种量热计的组成部分由一对光学隔离的小尺寸瓦片组成，瓦片由闪烁塑料和铅玻璃制成。来自玻璃的提示Čerenkov光可以用于执行高分辨率的定时测量，而高粒度提供了淋浴空间组件的良好分辨率。双读出补偿和粒子流技术可以同时应用于闪烁和Čerenkov部分，提供出色的能量分辨率以及PID粒子识别。这些特性使ADRIANO2成为一种适合于高能和高强度实验的6-D探测器。讨论了ADRIANO2项目的现状、光产率的初步测量以及T1604协作组织当前和未来的研发计划。

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Preliminary Results from ADRIANO2 Test Beams

A novel high-granularity, dual-readout calorimetric technique (ADRIANO2) is under development as part of the research program of T1604 Collaboration. (Talk Presented at the 19th International Conference on Calorimetry in Particle Physics (CALOR 2022), University of Sussex, Sussex, UK, 16–20 May 2022). The building block of such a calorimeter consists of a pair of optically isolated, small size tiles made of scintillating plastic and lead glass. The prompt Čerenkov light from the glass can be exploited to perform high resolution timing measurements, while the high granularity provides good resolution of the spatial components of the shower. Dual-readout compensation and particle flow techniques can be applied simultaneously to the scintillation and to the Čerenkov section, providing excellent energy resolution as well as PID particle identification. These characteristics make ADRIANO2 a 6-D detector, suited for High Energy as well as High Intensity experiments. A report on the status of the ADRIANO2 project, preliminary measurements of light yield, and current and future R&D plans by T1604 Collaboration are discussed.

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来源期刊

Instruments Physics and Astronomy-Instrumentation

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

11 weeks