R&D on a new type of micropattern gaseous detector: The Fast Timing Micropattern detector

D. Abbaneo, M. Abbas, M. Abbrescia, M. Abi Akl, O. Aboamer, D. Acosta, A. Ahmad, W. Ahmed, A. Aleksandrov, P. Altieri, C. Asawatangtrakuldee, P. Aspell, Y. Assran, I. Awan, S. Bally, Y. Ban, S. Banerjee, V. Barashko, P. Barria, G. BenczeN. Beni, L. Benussi, V. Bhopatkar, S. Bianco, J. Bos, O. Bouhali, A. Braghieri, S. Braibant, S. Buontempo, C. Calabria, M. Caponero, C. Caputo, F. Cassese, A. Castaneda, S. Cauwenbergh, F. R. Cavallo, A. Celik, M. Choi, S. Choi, J. Christiansen, A. Cimmino, S. Colafranceschi, A. Colaleo, A. Conde Garcia, S. Czellar, M. M. Dabrowski, G. De Lentdecker, R. De Oliveira, G. de Robertis, S. Dildick, B. Dorney, G. Endroczi, F. Errico, F. Fallavollita, A. Fenyvesi, S. Ferry, I. Furic, P. Giacomelli, J. Gilmore, V. Golovtsov, L. Guiducci, F. Guilloux, A. Gutierrez, R. M. Hadjiiska, J. Hauser, K. Hoepfner, M. Hohlmann, H. Hoorani, P. Iaydjiev, Y. G. Jeng, T. Kamon, P. Karchin, A. Korytov, S. Krutelyov, A. Kumar, H. Kim, J. Lee, T. Lenzi, L. Litov, F. Loddo, A. Madorsky, T. Maerschalk, M. Maggi, A. Magnani, P. K. Mal, K. Mandal, A. Marchioro, A. Marinov, N. Majumdar, J. A. Merlin, G. Mitselmakher, A. K. Mohanty, A. Mohapatra, J. Molnar, S. Muhammad, S. Mukhopadhyay, M. Naimuddin, S. Nuzzo, E. Oliveri, L. M. Pant, P. Paolucci, I. Park, G. Passeggio, B. Pavlov, B. Philipps, D. Piccolo, H. Postema, A. Puig Baranac, A. Radi, R. Radogna, G. Raffone, A. Ranieri, G. Rashevski, M. Ressegotti, C. Riccardi, M. Rodozov, A. Rodrigues, L. Ropelewski, S. RoyChowdhury, G. Ryu, M. S. Ryu, A. Safonov, S. Salva, G. Saviano, A. Sharma, A. Sharma, R. Sharma, A. H. Shah, M. Shopova, J. Sturdy, G. Sultanov, S. K. Swain, Z. Szillasi, J. Talvitie, A. Tatarinov, T. Tuuva, M. Tytgat, I. Vai, M. Van Stenis, R. Venditti, E. Verhagen, P. Verwilligen, P. Vitulo, S. Volkov, A. Vorobyev, D. Wang, M. Wang, U. Yang, Y. Yang, R. Yonamine, N. Zaganidis, F. Zenoni, A. Zhang

Research output: Contribution to journalArticlepeer-review

11 Citations (Scopus)

Abstract

This contribution introduces a new type of Micropattern Gaseous Detector, the Fast Timing Micropattern (FTM) detector, utilizing fully Resistive WELL structures. The structure of the prototype will be described in detail and the results of the characterization study performed with an X-ray gun will be presented, together with the first results on time resolution based on data collected with muon/pion test beams.

Original languageEnglish
Pages (from-to)313-317
Number of pages5
JournalNuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume845
DOIs
Publication statusPublished - 2017 Feb 11

Bibliographical note

Publisher Copyright:
© 2016 Elsevier B.V.

Keywords

  • CMS
  • Micropattern gaseous detectors
  • RWELL
  • Time resolution

ASJC Scopus subject areas

  • Nuclear and High Energy Physics
  • Instrumentation

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