Progress on the PICOSEC-Micromegas Detector Development: Towards a precise timing, radiation hard, large-scale particle detector with segmented readout

K. Kordas; J. Bortfeldt; F. Brunbauer; C. David; D. Desforge; G. Fanourakis; J. Franchi; M. Gallinaro; F. Garcia; Giomataris; D. Gonzalez-Diaz; T. Gustavsson; C. Guyot; F.J. Iguaz; M. Kebbiri; P. Legou; J. Liu; M. Lupberger; O. Maillard; Maniatis; I. Manthos; H. Mueller; V. Niaouris; E. Oliveri; T. Papaevangelou; K. Paraschou; M. Pomorski; B. Qi; F. Resnati; L. Ropelewski; D. Sampsonidis; T. Schneider; P. Schwemling; L. Sohl; M. van Stenis; P. Thuiner; Y. Tsipolitis; S.E. Tzamarias; R. Veenhof; X. Wang; S. White; Z. Zhang; Y. Zhou

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Progress on the PICOSEC-Micromegas Detector Development: Towards a precise timing, radiation hard, large-scale particle detector with segmented readout

机译：PICOSEC-Micromegas检测器开发的进展：迈向精确定时，具有分段读数的硬辐射大型粒子检测器

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This contribution describes the PICOSEC-Micromegas detector which achieves a time resolution below 25 ps. In this device the passage of a charged particle produces Cherenkov photons in a radiator, which then generate electrons in a photocathode and these photoelectrons enter a two-stage Micromegas with a reduced drift region and a typical anode region. The results from single-channel prototypes (demonstrating a time resolution of 24 ps for minimum ionizing particles, and 76 ps for single photoelectrons), the understanding of the detector in terms of detailed simulations and a phenomenological model, the issues of robustness and how they are tackled, and preliminary results from a multi-channel prototype are presented (demonstrating that a timing resolution similar to that of the single-channel device is feasible for all points across the area covered by a multi-channel device).

机译：这一贡献描述了PICOSEC-Micromegas检测器，该检测器可实现低于25 ps的时间分辨率。在该装置中，带电粒子的通过会在辐射器中产生切伦科夫光子，然后在光电阴极中产生电子，这些光电子进入两级微米级电子，具有减小的漂移区和典型的阳极区。单通道原型的结果（最小电离粒子的时间分辨率为24 ps，单光电子的时间分辨率为76 ps），通过详细的模拟和现象学模型对检测器的理解，鲁棒性问题以及如何解决这些问题解决了该问题，并给出了多通道原型的初步结果（表明与多通道设备覆盖的区域中的所有点类似的单通道设备的定时分辨率都是可行的）。

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来源
《Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment》 |2020年第1期|162877.1-162877.5|共5页
作者
K. Kordas; J. Bortfeldt; F. Brunbauer; C. David; D. Desforge; G. Fanourakis; J. Franchi; M. Gallinaro; F. Garcia; Giomataris; D. Gonzalez-Diaz; T. Gustavsson; C. Guyot; F.J. Iguaz; M. Kebbiri; P. Legou; J. Liu; M. Lupberger; O. Maillard; Maniatis; I. Manthos; H. Mueller; V. Niaouris; E. Oliveri; T. Papaevangelou; K. Paraschou; M. Pomorski; B. Qi; F. Resnati; L. Ropelewski; D. Sampsonidis; T. Schneider; P. Schwemling; L. Sohl; M. van Stenis; P. Thuiner; Y. Tsipolitis; S.E. Tzamarias; R. Veenhof; X. Wang; S. White; Z. Zhang; Y. Zhou;
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作者单位

IRFU CEA Universiti Paris-Saclay F-91191 Gif-sw-Yvette France;

European Organization for Nuclear Research (CERN) CH-1211 Geneve 23 Switzerland;

Institute of Nuclear and Particle Physics NCSR Demokritos GR-15341 Agia Paraskevi Attiki Greece;

Laboratorio de Instrumentacao e Fisica Experimental de Particulas Lisbon Portugal;

Helsinki Institute of Physics University of Helsinki FI-00014 Helsinki Finland;

Instituto Galego de Ftsica de Altas Enerxias (IGFAE) Universitade de Santiago de Compostela Spain;

LIDYL CEA CNRS Universit Paris-Saclay F-91191 Gif-sw-Yvette France;

IRFU CEA Universiti Paris-Saclay F-91191 Gif-sw-Yvette France Helsinki Institute of Physics University of Helsinki FI-00014 Helsinki Finland;

State Key Laboratory of Particle Detection and Electronics University of Science and Technology of China Hefei CN-230026 China;

Department of Physics Aristotle University of Thessaloniki University Campus GR-54124 Thessaloniki Greece;

CEA-LIST Diamond Sensors Laboratory CEA Saclay F-91191 Gif-sur-Yvette France;

National Technical University of Athens Athens Greece;

RD51 collaboration European Organization for Nuclear Research (CERN) CH-1211 Geneve 23 Switzerland;

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关键词
Picosecond timing MPGD Micromegas Photocathodes Cherenkov radiators Timing algorithms;

机译：皮秒计时MPGD Micromegas光电阴极Cherenkov辐射器计时算法;

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专利

1. Timing performance of a multi-pad PICOSEC-Micromegas detector prototype [J] . S. Aune, J. Bortfeldt, F. Brunbauer, Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2021,第Mara21期

机译：多垫PICOSEC-MicroMeGAS检测器原型的时序性能
2. A charged-particle detector based on proportional tubes with a segmented cathode and cathode readout [J] . A. M. Blick, M. Yu. Bogolyubsky, S. V. Erin, Instruments and Experimental Techniques . 2001,第3期

机译：基于比例管的带分段阴极和阴极读数的带电粒子检测器
3. A many particle-tracking detector with drift planes and segmented cathode readout [J] . Fischer J., Lissauer D. IEEE Transactions on Nuclear Science . 1990,第2期

机译：具有漂移平面和分段阴极读数的多粒子跟踪探测器
4. Comparative timing performances of S-CVD diamond detectors with different particle beams and readout electronics [C] . Nunzio Randazzo, Sebastiano Aiello, Gabriele Chiodini, IEEE Nuclear Science Symposium and Medical Imaging Conference . 2012

机译：不同粒子束的S-CVD金刚石探测器的比较时序性能和读出电子器件
5. Improved N-Type 4H-SiC Epitaxial Layer Radiation Detectors and Noise Analysis of Front-End Readout Electronics [D] . Nguyen, Khai V. 2017

机译：改进的N型4H-SiC外延层辐射探测器和前端读出电子设备的噪声分析
6. Energy and Timing Measurement with Time-Based Detector Readout for PET Applications: Principle and Validation with Discrete Circuit Components [O] . Xishan Sun, Allan K. Lan, Chad Bircher, -1

机译：用基于时间的PET应用程序读数的能量和定时测量：使用离散电路组件的原理和验证
7. Advanced radiation detector development: Advanced semiconductor detector development: Development of a room-temperature, gamma ray detector using gallium arsenide to develop an electrode detector. Annual progress report, September 30, 1994--September 29, 1995 [O] . Knoll, G.F. 1995

机译：先进的辐射探测器开发：先进的半导体探测器开发：开发室温，伽马射线探测器，使用砷化镓开发电极探测器。年度进展报告，1994年9月30日至1995年9月29日

Progress on the PICOSEC-Micromegas Detector Development: Towards a precise timing, radiation hard, large-scale particle detector with segmented readout

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