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CMS Note | |
Report number | CMS-CR-2016-033 |
Title | R&D on a new type of micropattern gaseous detector: The Fast Timing Micropattern detector |
Related title | R and D on a new type of micropattern gaseous detector the Fast Timing Micropattern detector |
Author(s) |
Abbaneo, D (CERN) ; Abbas, M (CERN) ; Abbrescia, M (U. Bari (main) ; INFN, Bari) ; Abi Akl, M (Texas A&M; U. Qatar, Doha) ; Aboamer, O (Cairo, Acad. Sci. Res. Tech.) ; Acosta, D (Florida U.) ; Ahmad, A (NCP, Islamabad) ; Ahmed, W (INFN, Bari ; U. Bari (main)) ; Aleksandrov, A (Sofiya, Inst. Nucl. Res.) ; Altieri, P (U. Bari (main) ; INFN, Bari) ; Asawatangtrakuldee, C (Peking U., Beijing) ; Aspell, P (CERN) ; Assran, Y (Cairo, Acad. Sci. Res. Tech.) ; Awan, I (NCP, Islamabad) ; Bally, S (CERN) ; Ban, Y (Peking U., Beijing) ; Banerjee, S (Saha Inst.) ; Barashko, V (U. Florida, Gainesville (main)) ; Barria, P (U. Brussels (main)) ; Bencze, G (Wigner RCP, Budapest) ; Beni, N (Debrecen, Inst. Nucl. Res.) ; Benussi, L (Frascati) ; Bhopatkar, V (Florida Inst. Tech.) ; Bianco, S (Frascati) ; Bos, J (CERN) ; Bouhali, O (Texas A&M; U. Qatar, Doha) ; Braghieri, A (INFN, Pavia ; U. Pavia (main)) ; Braibant, S (U. Bologna (main) ; INFN, Bologna) ; Buontempo, S (INFN, Naples) ; Calabria, C (U. Bari (main) ; INFN, Bari) ; Caponero, M (Frascati) ; Caputo, C (U. Bari (main) ; INFN, Bari) ; Cassese, F (INFN, Naples) ; Castaneda, A (Texas A&M; U. Qatar, Doha) ; Cauwenbergh, S (Gent U.) ; Cavallo, F R (U. Bologna (main) ; INFN, Bologna) ; Celik, A (TAMU, College Station) ; Choi, M (Seoul U.) ; Choi, S (Korea U.) ; Christiansen, J (CERN) ; Cimmino, A (Gent U.) ; Colafranceschi, S (Florida Inst. Tech.) ; Colaleo, A (INFN, Bari ; U. Bari (main)) ; Conde Garcia, A (CERN) ; Czellar, S (Debrecen, Inst. Nucl. Res.) ; Dabrowski, M M (CERN) ; De Lentdecker, G (U. Brussels (main)) ; Oliveira, R De (CERN) ; De Robertis, G (U. Bari (main) ; INFN, Bari) ; Dildick, S (TAMU, College Station ; Gent U.) ; Dorney, B (CERN) ; Endroczi, G (Budapest, RMKI) ; Errico, F (U. Bari (main) ; INFN, Bari) ; Fallavollita, F (INFN, Pavia ; U. Pavia (main)) ; Fenyvesi, A (Debrecen, Inst. Nucl. Res.) ; Ferry, S (CERN) ; Furic, I (U. Florida, Gainesville (main)) ; Giacomelli, P (INFN, Bologna ; U. Bologna (main)) ; Gilmore, J (TAMU, College Station) ; Golovtsov, V (St. Petersburg, INP) ; Guiducci, L (U. Bologna (main) ; INFN, Bologna) ; Guilloux, F (IRFU, Saclay) ; Gutierrez, A (Wayne State U., Detroit) ; Hadjiiska, R M (Sofiya, Inst. Nucl. Res.) ; Hauser, J (UCLA) ; Hoepfner, K (Aachen, Tech. Hochsch.) ; Hohlmann, M (Florida Inst. Tech.) ; Hoorani, H (NCP, Islamabad) ; Iaydjiev, P (Sofiya, Inst. Nucl. Res.) ; Jeng, Y G (Seoul U.) ; Kamon, T (TAMU, College Station) ; Karchin, P (Wayne State U., Detroit) ; Korytov, A (U. Florida, Gainesville (main)) ; Krutelyov, S (TAMU, College Station) ; Kumar, A (Delhi U.) ; Kim, H (Seoul U.) ; Lee, J (Seoul U.) ; Lenzi, T (U. Brussels (main)) ; Litov, L (Sofia U. (main)) ; Loddo, F (U. Bari (main) ; INFN, Bari) ; Madorsky, A (U. Florida, Gainesville (main)) ; Maerschalk, T (U. Brussels (main)) ; Maggi, M (INFN, Bari ; U. Bari (main)) ; Magnani, A (INFN, Pavia ; Cielo Comm., Broomfield) ; Mal, P K (Bhubaneswar, NISER) ; Mandal, K (Bhubaneswar, NISER) ; Marchioro, A (CERN) ; Marinov, A (CERN) ; Majumdar, N (Saha Inst.) ; Merlin, J A (CERN ; Strasbourg, IPHC) ; Mitselmakher, G (U. Florida, Gainesville (main)) ; Mohanty, A K (Bhabha Atomic Res. Ctr.) ; Mohapatra, A (Florida Inst. Tech.) ; Molnar, J (Debrecen, Inst. Nucl. Res.) ; Muhammad, S (NCP, Islamabad) ; Mukhopadhyay, S (Saha Inst.) ; Naimuddin, M (Delhi U.) ; Nuzzo, S (U. Bari (main) ; INFN, Bari) ; Oliveri, E (CERN) ; Pant, L M (Bhabha Atomic Res. Ctr.) ; Paolucci, P (INFN, Naples) ; Park, I (Seoul U.) ; Passeggio, G (INFN, Naples) ; Pavlov, B (Sofia U.) ; Philipps, B (Aachen, Tech. Hochsch.) ; Piccolo, D (Frascati) ; Postema, H (CERN) ; Puig Baranac, A (CERN) ; Radi, A (Cairo, Acad. Sci. Res. Tech.) ; Radogna, R (U. Bari (main) ; INFN, Bari) ; Raffone, G (Frascati) ; Ranieri, A (INFN, Bari ; U. Bari (main)) ; Rashevski, G (Sofiya, Inst. Nucl. Res.) ; Ressegotti, M (INFN, Pavia ; U. Pavia (main)) ; Riccardi, C (INFN, Pavia ; U. Pavia (main)) ; Rodozov, M (Sofiya, Inst. Nucl. Res.) ; Rodrigues, A (CERN) ; Ropelewski, L (CERN) ; RoyChowdhury, S (Saha Inst.) ; Ryu, G (Seoul U.) ; Ryu, M S (Seoul U.) ; Safonov, A (TAMU, College Station) ; Salva, S (Gent U.) ; Saviano, G (Frascati) ; Sharma, A (INFN, Bari ; U. Bari (main)) ; Sharma, A (CERN) ; Sharma, R (Delhi U.) ; Shah, A H (Delhi U.) ; Shopova, M (Sofiya, Inst. Nucl. Res.) ; Sturdy, J (Wayne State U., Detroit) ; Sultanov, G (Sofiya, Inst. Nucl. Res.) ; Swain, S K (Bhubaneswar, NISER) ; Szillasi, Z (Debrecen, Inst. Nucl. Res.) ; Talvitie, J (Lappeenranta U. Tech.) ; Tatarinov, A (TAMU, College Station) ; Tuuva, T (Lappeenranta U. Tech.) ; Tytgat, M (Gent U.) ; Vai, I (INFN, Pavia ; Pavia U.) ; Van Stenis, M (CERN) ; Venditti, R (U. Bari (main) ; INFN, Bari) ; Verhagen, E (U. Brussels (main)) ; Verwilligen, P (INFN, Bari ; U. Bari (main)) ; Vitulo, P (INFN, Pavia ; U. Pavia (main)) ; Volkov, S (St. Petersburg, INP) ; Vorobyev, A (St. Petersburg, INP) ; Wang, D (Peking U., Beijing) ; Wang, M (Peking U., Beijing) ; Yang, U (Seoul Natl. U. (main)) ; Yang, Y (U. Brussels (main)) ; Yonamine, R (Seoul Natl. U. (main)) ; Zaganidis, N (Gent U.) ; Zenoni, F (Brussels U.) ; Zhang, A (Florida Inst. Tech.) |
Publication | 2017 |
Imprint | 08 Mar 2016 |
Number of pages | 5 |
In: | Nucl. Instrum. Methods Phys. Res., A 845 (2017) 313-317 |
In: | 14th Vienna Conference on Instrumentation, Vienna, Austria, 15 - 19 Feb 2016, pp.313-317 |
DOI | 10.1016/j.nima.2016.05.067 |
Subject category | Detectors and Experimental Techniques |
Accelerator/Facility, Experiment | CERN LHC ; CMS |
Abstract | Micropattern gaseous detectors (MPGD) underwent significant upgrades in recent years, introducing resistive materials to build compact spark-protected devices. Exploiting this technology further, various features such as space and time resolution, rate capability, sensitive area, operational stability and radiation hardness can be improved. This contribution introduces a new type of MPGD, namely the Fast Timing Micropattern (FTM) detector, utilizing a fully resistive WELL structure. It consists of a stack of several coupled layers where drift and WELL multiplication stages alternate in the structure, yielding a significant improvement in timing properties due to competing ionization processes in the different drift regions. Two FTM prototypes have been developed so far. The first one is uWELL-like, where multiplication takes place in the holes of a kapton foil covered on both sides with resistive material. The second one has a resistive Micromegas-like structure, with multiplication developing in a region delimited by a resistive mesh. The structure of these prototypes will be described in detail and the results of the characterization study performed with an X-Ray generator with two different gas mixtures will be presented. First results on rate capability and time resolution based on data collected with cosmic rays and muon/pion test beams will also be presented. |
Copyright/License | Elsevier B.V. Preprint: (License: CC-BY-4.0) |