[1] Giomataris, Y., Rebourgeard, Ph., Robert, J.P. and Charpak, G. (1996) MICROMEGAS: A High-Granularity Position-Sensitive Gaseous Detector for High Particle-Flux Environments. Nuclear Instruments and Methods, A376, 29-35.
[2] Sauli, F. (2002) Micro-Pattern Gas Detectors. Nuclear Instruments and Methods, A477, 1-7.
[3] Charpak, G., et al. (1998) First Beam Test Results with Micromegas, a High Rate, High Resolution Detector. Nuclear Instruments and Methods, A412, 47-60.
[4] Bachmann, S., Bressan, A., Ropclewski, L. and Sauli, F. (2000) High Resolution Micro-Pattern Gaseous Tracking Detectors. CERN, Nuclear Physics A663&664, 1069c-1072c.
[5] Giomataris, Y. (1998) Development and Prospects of the New Gaseous Detector MICROMEGAS. Nuclear Instruments and Methods, A419, 239. http://dx.doi.org/10.1016/S0168-9002(98)00865-1
[6] Sarvestani, A., et al. (1997) Thin-Gap Parallel Plate Chamber Variation. Nuclear Instruments and Methods, A410, 238.
[7] Barrouch, G., et al. (1999) Development of a Fast Gaseous Detector: “Micromegas”. Nuclear Instruments and Methods, A423, 32-48.
[8] Korff, S.A. (1955) Electrons and Nuclear Counters. Van Nostrand, Princeton.
[9] Hamid, M., Seddik, B. and Abdelrhani, N. (2013) Micromegas Detector: Modeling Large Families Based on Gaseous Mixtures. LAP LAMBERT, Academic Publishing.
[10] Mounir, H., Bri, S. and Haddad, M. (2012) Micromegas Signals Produced in Micromesh Based in Argon-Isobutane (Ar-Isobutane) and Argon-Dimethyl-Ether (Ar-DME) Gas Mixtures. European Journal of Scientific Research, 81, 465- 475.
[11] Puil Geal, M. (2000) The Development of MICROMEGAS, a New Detector Gaseous Positron Micro-Grid. Ph.D. Thesis, University of Caen, Caen.
[12] Mounir, H. and Bri, S. (2013) Micromegas Detector Using 55Fe X-ray Source. International Journal of Advanced Scientific and Technical Research, 1, 671-684.
[13] Sharma, A. and Sauli, F. (1993) Experimental Determination of the Townsend Coefficient for Argon-CO2 Gas Mixtures at High Fields. Nuclear Instruments and Methods, A334, 420-424.
[14] Nakhostin, M., Baba, M., Ohtsuki, T., Oishi, T. and Itoga, T. (2007) Precise Measurement of First Townsend Coefficient, Using Parallel Plate Avalanche Chamber. Nuclear Instruments and Methods in Physics Research, A572, 999- 1003.
[15] Chefdeville, M. (2009) Development of Micromegas-Like Gaseous Detectors Using a Pixel Readout Chip as Collecting Anode. Thesis, University of Amsterdam, Amsterdam.