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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. (C) 2016 Elsevier B.V. All rights reserved.

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Chicago
Abbaneo, D., M. Abbas, M. Abbrescia, M. Abi Akl, O. Aboamer, D. Acosta, A. Ahmad, et al. 2017. “R&D on a New Type of Micropattern Gaseous Detector: The Fast Timing Micropattern Detector.” Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment 845: 313–317.
APA
Abbaneo, D., Abbas, M., Abbrescia, M., Akl, M. A., Aboamer, O., Acosta, D., Ahmad, A., et al. (2017). R&D on a new type of micropattern gaseous detector: The Fast Timing Micropattern detector. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 845, 313–317. Presented at the 14th Vienna Conference on Instrumentation.
Vancouver
1.
Abbaneo D, Abbas M, Abbrescia M, Akl MA, Aboamer O, Acosta D, et al. R&D on a new type of micropattern gaseous detector: The Fast Timing Micropattern detector. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT. Feb 15-19, 2016; 2017;845:313–7.
MLA
Abbaneo, D., M. Abbas, M. Abbrescia, et al. “R&D on a New Type of Micropattern Gaseous Detector: The Fast Timing Micropattern Detector.” NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT 845 (2017): 313–317. Print.
@article{8568649,
  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. (C) 2016 Elsevier B.V. All rights reserved.},
  author       = {Abbaneo, D. and Abbas, M. and Abbrescia, M. and Akl, M. Abi and Aboamer, O. and Acosta, D. and Ahmad, A. and Ahmed, W. and Aleksandrov, A. and Altieri, R. and Asawatangtrakuldee, C. and Aspell, P. and Assran, Y. and Awan, I. and Bally, S. and Ban, Y. and Banerjee, S. and Barashko, V. and Barria, P. and Bencze, G. and Beni, N. and Benussi, L. and Bhopatkar, V. and Bianco, S. and Bos, J. and Bouhali, O. and Braghieri, A. and Braibant, S. and Buontempo, S. and Calabria, C. and Caponero, M. and Caputo, C. and Cassese, F. and Castaneda, A. and Cauwenbergh, S. and Cavallo, F. R. and Celik, A. and Choi, M. and Choi, S. and Christiansen, J. and Cimmino, Anna and Colafranceschi, S. and Colaleo, A. and Garcia, A. Conde and Czellar, S. and Dabrowski, M. M. and De Lentdecker, G. and De Oliveira, R. and de Roberts, G. and Dildick, Sven and Dorney, B. and Endroczi, G. and Errico, F. and Fallavollita, F. and Fenyvesi, A. and Ferry, S. and Furic, I. and Giacomelli, P. and Gilmore, J. and Golovtsov, V. and Guiducci, L. and Guilloux, E. and Gutierrez, A. and Hadjiiska, R. M. and Hauser, J. and Hoepfner, K. and Hohlmann, M. and Hoorani, H. and Iaydjiev, P. and Jeng, Y. G. and Kamon, T. and Karchin, P. and Korytov, A. and Krutelyov, S. and Kumar, A. and Kim, H. and Lee, J. and Lenzi, T. and Litov, L. and Loddo, E. and Madorsky, A. and Maerschalk, T. and Maggi, M. and Magnani, A. and Mal, P. K. and Mandal, K. and Marchioro, A. and Marinov, Andrey and Majumdar, N. and Merlin, J. A. and Mitselmakher, G. and Mohanty, A. K. and Mohapatra, A. and Molnar, J. and Muhammad, S. and Mukhopadhyay, S. and Naimuddin, M. and Nuzzo, S. and Oliveri, E. and Pant, L. M. and Paolucci, P. and Park, I. and Passeggio, G. and Pavlov, B. and Philipps, B. and Piccolo, D. and Postema, H. and Baranac, A. Puig and Radi, A. and Radogna, R. and Raffone, G. and Ranieri, A. and Rashevski, G. and Ressegotti, M. and Riccardi, C. and Rodozov, M. and Rodrigues, A. and Ropelewski, L. and RoyChowdhury, S. and Ryu, G. and Ryu, M. S. and Safonov, A. and Salva, Sinem and Saviano, G. and Sharma, A. and Sharma, A. and Sharma, R. and Shah, A. H. and Shopova, M. and Sturdy, J. and Sultanov, G. and Swain, S. K. and Szillasi, Z. and Talvitie, J. and Tatarinov, A. and Tuuva, T. and Tytgat, Michael and Vai, I. and Van Stenis, M. and Venditti, R. and Verhagen, E. and Verwilligen, R. and Vitulo, R. and Volkov, S. and Vorobyev, A. and Wang, D. and Wang, M. and Yang, U. and Yang, Y. and Yonamine, R. and Zaganidis, Nikolaos and Zenoni, E. and Zhang, A.},
  issn         = {0168-9002},
  journal      = {NUCLEAR INSTRUMENTS \& METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT},
  location     = {Vienna Univ Technol, Dept Elect Engn, Vienna, AUSTRIA},
  pages        = {313--317},
  title        = {R\&D on a new type of micropattern gaseous detector: The Fast Timing Micropattern detector},
  url          = {http://dx.doi.org/10.1016/j.nima.2016.05.067},
  volume       = {845},
  year         = {2017},
}

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