Final design of a monitoring system and software correction cycle for the mirror alignment of the CBM RICH detector

J. Adamczewski-Musch; P. Akishin; K.-H. Becker; J. Bendarouach; C. Deveaux; M. Duerr; J. Eschke; J. Foertsch; J. Heep; C. Hoehne; D. Ivanishchev; K.-H. Kampert; L. Kochenda; P. Kravtsov; I. Kres; S. Lebedev; E. Lebedeva; S. Linev; T. Mahmoud; M. Malaev; J. Michel; N. Miftakhov; W. Niebur; J.-H. Otto; E. Ovcharenko; V. Patel; C. Pauly; D. Pfeifer; Y. Riabov; E. Roshchin; V. Samsonov; O. Tarasenkova; M. Traxler; D. Tyts; M. Vznuzdaev; A.A. Weber; P. Zumbruch

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Final design of a monitoring system and software correction cycle for the mirror alignment of the CBM RICH detector

机译：监视系统的最终设计和CBM RICH检测器镜面校准的软件校正周期

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The Compressed Baryonic Matter (CBM) experiment at the future Facility for Anti-proton and Ion Research (FAIR) complex will explore the phase diagram of strongly interacting matter at high baryon density and moderate temperatures in A+A collisions. The energy spectrum will start at 2 AGeV/c and extend up to 11 AGeV/c for the heaviest nuclei at the SIS 100 accelerator set-up. To explore the physics program of CBM, a RICH detector will be employed for electron identification and pion suppression in a momentum range up to 8 GeV/c. Mirror alignment is a key issue for a proper detector operation. The final conceptual design for a monitoring system of the alignment of the mirrors of the CBM RICH detector will be introduced. It consists of a fast qualitative check of the alignment as well as two different methods to derive quantitative numbers for misalignments. A software correction cycle had been developed which, once applied allows to get back to physics performances as in an ideally aligned case.

机译：未来反质子和离子研究设施（FAIR）的压缩重子物质（CBM）实验将探索在高重子密度和中等温度下A + A碰撞中强相互作用物质的相图。对于SIS 100加速器设置中最重的核，能谱将从2 AGeV / c开始并扩展到11 AGeV / c。为了探索CBM的物理程序，将使用RICH检测器在动量范围高达8 GeV / c的情况下进行电子识别和离子抑制。镜面对准是正确检测器操作的关键问题。将介绍CBM RICH检测器的反射镜对准监视系统的最终概念设计。它包括对对齐方式的快速定性检查，以及两种不同的方法来得出未对齐的数量。已经开发了一个软件校正周期，一旦应用该校正周期，就可以像理想情况下那样恢复物理性能。

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来源
《Nuclear instruments and methods in physics research》 |2020年第1期|161799.1-161799.3|共3页
作者
J. Adamczewski-Musch; P. Akishin; K.-H. Becker; J. Bendarouach; C. Deveaux; M. Duerr; J. Eschke; J. Foertsch; J. Heep; C. Hoehne; D. Ivanishchev; K.-H. Kampert; L. Kochenda; P. Kravtsov; I. Kres; S. Lebedev; E. Lebedeva; S. Linev; T. Mahmoud; M. Malaev; J. Michel; N. Miftakhov; W. Niebur; J.-H. Otto; E. Ovcharenko; V. Patel; C. Pauly; D. Pfeifer; Y. Riabov; E. Roshchin; V. Samsonov; O. Tarasenkova; M. Traxler; D. Tyts; M. Vznuzdaev; A.A. Weber; P. Zumbruch;
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作者单位

GSI Helmholtzzentrum fur Schwerionenforschung GmbH D-64291 Darmstadt Germany;

St Petersburg Polytechnic University (SPbPU) St Petersburg Russia;

Department of Physics University of Wuppertal D-42097 Wuppertal Germany;

Institute of Physics II and Institute of Applied Physics Justus Liebig University Giessen D-35392 Giessen Germany;

GSI Helmholtzzentrum fur Schwerionenforschung GmbH D-64291 Darmstadt Germany Institute of Physics II and Institute of Applied Physics Justus Liebig University Giessen D-35392 Giessen Germany;

National Research Centre "Kurchatov Institute" B.P.Konstantinov Petersburg Nuclear Physics Institute 188300 Gatchina Russia;

National Research Centre "Kurchatov Institute" B.P.Konstantinov Petersburg Nuclear Physics Institute 188300 Gatchina Russia National Research Nuclear University MEPhI (Moscow Engineering Physics Institute) 115409 Moscow Russia;

Institute of Physics II and Institute of Applied Physics Justus Liebig University Giessen D-35392 Giessen Germany Laboratory of Information Technologies Joint Institute for Nuclear Research (JINR-LIT) Dubna Russia;

Institut fuer Kernphysik Goethe University Frankfurt D-60438 Frankfurt am Main Germany;

National Research Centre "Kurchatov Institute" B.P.Konstantinov Petersburg Nuclear Physics Institute 188300 Gatchina Russia National Research Nuclear University MEPhI (Moscow Engineering Physics Institute) 115409 Moscow Russia St Petersburg Polytechnic University (SPbPU) St Petersburg Russia;

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正文语种 eng
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关键词
CBM; RICH; Mirror alignment; Mirror rotation; Misalignment correction; Correction cycle;

机译：煤层气;丰富;镜面对准;镜旋转错位校正;校正周期;

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专利

1. Conception and design of a control and monitoring system for the mirror alignment of the CBM RICH detector [J] . J. Adamczewski-Musch, P. AWshin, K.-H. Becker, Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2017,第deca21期

机译：用于CBM RICH检测器的镜面对准的控制和监视系统的概念和设计
2. Conception and design of a control and monitoring system for the mirror alignment of the CBM RICH detector [J] . J Bendarouach Journal of Physics: Conference Series . 2016,第1期

机译：用于CBM RICH检测器的镜面对准的控制和监视系统的概念和设计
3. Conception and design of a control and monitoring system for the mirror alignment of the CBM RICH detector [J] . J Bendarouach Journal of Physics: Conference Series . 2016,第1期

机译：用于CBM RICH检测器的镜面对准的控制和监视系统的概念和设计
4. Investigation of surface homogeneity of mirrors for the CBM-RICH detector and low-mass di-electron feasibility studies [C] . E Lebedeva, C Hoehne FAIRNESS . 2013

机译：富含CBM探测器和低质量二电子可行性研究镜子表面均匀性的研究
5. COMPUTERIZED LIFE CYCLE ADVISING, MONITORING, AND PREDICTING (CLAMP) (SOFTWARE ENGINEERING, RULE-BASED SYSTEM, UNIX). [D] . CHEN, RICHARD LE. 1985

机译：计算机化的生命周期建议，监视和预测（夹具）（软件工程，基于规则的系统，UNIX）。
6. Correction: When Whole-Genome Alignments Just Won’t Work: kSNP v2 Software for Alignment-Free SNP Discovery and Phylogenetics of Hundreds of Microbial Genomes [O] . -1

机译：更正：全基因组比对不起作用时：kSNP v2软件可用于无比对SNP发现和数百种微生物基因组的系统发育
7. Monitoring of absolute mirror alignment at COMPASS RICH-1 detector [O] . Alexeev, M., Birsa, R., Bradamante, F., 2014

机译：在COMPASS RICH-1检测器上监控绝对镜面对准

Final design of a monitoring system and software correction cycle for the mirror alignment of the CBM RICH detector

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