عباسی، ا.، 1388، لرزهخیزی و لرزهزمینساخت لبهجنوبی البرز مرکزی، پژوهشگاه بینالمللی زلزلهشناسی و مهندسی زلزله، پایاننامه دکتری.
عباسی، م. ر.، 1381، وضعیت جهت تنش نوزمینساختی در لبهجنوبی البرز مرکزی، پژوهشگاه بینالمللی زلزلهشناسی و مهندسی زلزله، گزارش پروژه.
عباسی، م. ر.، سلیمانی، ش. و مبین، پ.، 1387، بررسیهای مورفوتکتونیکی روی افراز گسل مشا در دره مشا، پژوهشگاه بینالمللی زلزلهشناسی و مهندسی زلزله، گزارش پروژه.
یمینیفرد، ف.، سیاهکالی مرادی، ع.، حسینی، م. و نوروزی، ر.، 1388، مطالعه لرزهخیزی تهران بزرگ و مجاورت آن با استفاده از دادههای ثبتشده در شبکه لرزهنگاری شهر تهران، فصلنامه علوم زمین، شماره 73، 133 - 138.
Abbassi A., Nasrabadi A., Tatar M., Yaminifard, F., Abbassi, M. R., Hatzfeld, D., and Priestley K., 2010, Crustal Velocity Structure in the southern edge of the Central Alborz (Iran), Journal of Geodynamics, 49, 68-78.
Ambraseys, N. N., Melville, C. P., 1982, A history of Persian earthquakes, Cambridge Earth Science Series, Cambridge University Press, London, 212 pp.
Allen, M., B., Ghasemi, M. R., Shahrabi, M. and Qorashi, M., 2003, Accommodation of Late Cenozoic Oblique Shortening in the Alborz range, northern Iran, Journal of Structural Geology, 25, 659- 672.
Ashtari, M., Hatzfeld, D., Kamalian, N., 2005, Micro Seismicity in the Region of Tehran, Tectonophysics, 395, 193-208.
Axen, J.G., Lam, S. P., Grove, M., Stockli F. D., and Hassanzadeh, J., 2001, Exhumation of west-Central Alborz Mountains, Iran, Caspian Subsidence, and Collision-related tectonics, Geology, 29(6), 559-562.
Ballato, P., Nowaczyk, N., Landgraf, A., Strecker, M.R., Friedrich, A. and Tabatabaei, S.H., 2008, Tectonic control on sedimentary facies pattern and sediment accumulation rates in the Miocene foreland basin of the southern Alborz Mountains, northern Iran, Tectonics, 27, TC6001.
Barry, R. L., 1994, HYPOCENTER 3.2: A Computer Program for Locating Earthquakes, Locally, Regionally and Globally, Hawaii Institute of Geophysics and Planetology, 2525 Korea Rd Honolulu HI, 74pp.
Berberian, M., 1983, The southern Caspian: a compressional depression floored by a trapped, modified oceanic crust. Canadian Journal of Earth Science, 20, 163-183.
Chatelain, J. L., 1978, Etude fine de la sismicité en zone de collision continentale à l’aide d’un réseau de statios portables: la region Hindu-Kush-Pamir. Thèse de 3 éme cycles, University of Paul Sabatier, Toulouse.
Ehteshami Moinabadi, M., and Yassaghi A., 2006, Geometry and kinematics of the Mosha Fault, south central Alborz Range, Iran: An example of basement involved thrusting, Journal of Asian Earth Sciences, 29, (5-6), 928-938.
Engdahl, E. R., Jackson, J., Myers, S. C., Bergman, E., and Priestley, K., 2006, Relocation and assessment of seismicity in the Iran Region, Geophysics Journal International, 167, 761-778.
Engdahl, E. R., Van der Hilst, R. and Buland, R., 1998. Global teleseismic earthquake relocation with improved travel times and procedures for depth determination, Bulletin of Seismological Society of America, 88, 722-743.
Frechet, J., and Thouvenot, F., 2000, PICKEV 2000 Software, Copyright 1993-2006, JosephFourierUniversity (UJF) and NationalCenter for Scientific Research (NCSR), SISMALP Network.
Jackson, J., Priestley, K., Allen, M., and Berberian, M., 2002, Active tectonics of the SouthCaspianBasin, Geophysics Journal International, 148, 214-245.
Gillard, D., and Wyss, M., 1995, Comparison of strain and stress tensor orientation: Application of Iran and southern California, Journal of Geophysical Research, 100(B11), 197-213.
Harvard 2009, Department of Geological Sciences, Centroid Moment Tensor catalogue, available on line at: http://www. seismology.harvard.edu/CMTsearch.html.
Hatzfeld, D., Zizzia, M., Kementzetziduou, D., Hatzidimitriou, P., Panagiotopoulos, D., Makropoulos, K., Papadimitriou, P., and Deschamps A., 1999, Microseismicity and focal mechanisms at western termination of the North Anatolian fault and their implications for continental tectonics, Geophysics Journal International, 137, 891-908.
Havskov, J., and Ottemöller, L., 2005, SEISAN: The earthquake analysis software for windows, Solaris, Linux and Macosx, Version 8.1.
Hedayati, A., Brander, J. L., and Berberian, M., 1976. Microearthquake survey of Tehran region, Iran, Bulletin of the Seismological Society of America, 66, 1713-1725.
Kissling, E., 1988. Geotomography with local earthquake data, Review of Geophysics, 26, 659- 698.
Landgraf, A., Ballato P., Strecker, M. R., Friedrich, A., Tabatabaei, S. H., and Shahpasandzadeh, M., 2009, Fault-kinematic and geomorphic observations along the North Tehran Thrust and Mosha Fasham Fault, Alborz mountains Iran: implications for fault-system evolution and interaction in a changing tectonic regime, Geophys.l J.l Int., 177, 676-690.
Lee, W. H. K., and Lahr, J. C., 1975, HYPO71 (Revised): A computer program for determining hypocenter, magnitude, and first motion pattern of local earthquakes, United States Geological Survey Open File Report, 75-311, 113 pp.
Maggi, A., Priestley, K. and Jackson, J.A., 2002, Focal Depths of Moderate and Large Size Earthquakes in Iran, Journal of Seismology and Earthquake Engineering, 4, 1-10.
Mercier, J. L., Carey-Gailhardis, E., Sebrier, M., Stein, S., Hancock, P., and England, P., 1991, Palaeostress Determinations from Fault Kinematics: Application to the Neotectonics of the Himalayas-Tibet and the Central Andes [and Discussion], Philosophical Transactions of the Royal Society, A, 337, 41-52
Ritz, J. F., Nazari, H., Ghassemi, A., Salamati, R., Shafei, A., Solaymani, S., and Vernant, P., 2006, Active transtension inside central Alborz: A new insight into northern Iran- southern Caspian geodynamics, Geology, 34, 477-480.
Snoke, J., A., 2003, FOCMEC: Focal Mechanism Determinations, Virginia Tech, Blacksburg, VA, USA
Tatar, M., Jackson, J., Hatzfeld, D., and Bergman, E., 2007, The 2004 May 28 Baladeh earthquake (Mw 6.2) in the Alborz, Iran: Over thrusting the South Caspian Basin margin, partitioning of oblique convergence and the seismic hazard of Tehran, Geophys. J. Int., 170, 249-261.
Trifonov, V.G., Hessami, K.T., and Jamali, F., 1996, West-Trending Oblique Sinistral-Reverse Fault system in Northern Iran, IIEES Special Publication, 75, Tehran, Iran.
Vernant, P., Nilforoushan, F., Chery, J., Bayer, R. Djmour, Y., Masson, F., Nankali, H., Ritz, J-G., Sedighi, M., and Tavakoli, F., 2004, Deciphering Oblique Shortening of Central Alborz in Iran Using geodetic data, Earth and planetary Science Letters, 223, 177-185.
Wadati, K., 1933, On the travel time of earthquake waves, Part II, Geophysical Magazine, 7, 101-111.
Waldhauser, F., 2001, hypoDD--A Program to Compute Double-Difference Hypocenter Locations (hypoDD version 1.0 - 03/2001), U.S. Geol. Survey 345 Middlefield Rd, MS977 Menlo Park, CA 94025 Open File Report 01-113, 25pp.
Waldhauser, F. and W. L. Ellsworth, 2000, a double-difference earthquake location algorithm: Method and application to the northern Hayward fault, Bull. Seism. Soc. Am., 90, 1353-1368.