Source: http://in.bgu.ac.il/teva/geological/eng/Pages/staff/Dov%20Bahat%20.aspx
Timestamp: 2019-04-26 02:03:32+00:00

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Outcrop - size fracture phenomena in the field, mostly joints; Experimental study of brittle fracture in inorganic and polymeric glasses; Application of fracture-physics to problems in structural geology; Tectonofractography; Electromagnetic radiation induced by fracture in rocks - a future supplementary concept to seismology.
•	Rabinovitch, G. Belizovsky, and D. Bahat. Origin of mist and hackle patterns in brittle fracture. Phys. Rev. B. 61, 14, 968-14, 974 (2000).
•	Rabinovitch, R. Zlotnikov, and D. Bahat. Flaw length distribution measurement in brittle materials. J. Appl. Phys. 87, 7720-7725 (2000).
•	D. Bahat. The quasi-ellipsoid damage zone of faults and five types of fault-joint relationship in the Beer Sheva syncline, Israel. IX Congreso Geologico Chileno, Puerto Varas, Chile, 1, 749-753 (2000).
•	P. Bankwitz, Bahat, D. and E. Bankwitz. Granitklueftung - Kenntnisstand 80 Jahre nach Hans CLOOS. - Zeitschrift fuer Geologische Wissenschaften (Z. Geol. Wiss.), vol. 28, 87-110. Berlin (2000).
•	V. Frid, D. Bahat, J. Goldbaum and A. Rabinovitch. Potential geophysical applications of electromagnetic radiation induced by rock fracture: experimental and theoretical. Israel J. Earth Sci. 49, 9-19 (2000).
•	D. Bahat and A. Rabinovitch. New fractographic aspets of natural and artificial fractures in chalks, from the Upper Galilee, Israel, and experimental fracture in Perspex. J. Struct. Geol. 22, 1427-1435 (2000).
•	Rabinovitch, V. Frid, D. Bahat and J. Goldbaum. Fracture area calculation from electromagnetic radiation and its use in chalk failure analysis. International Journal of Rock Mechanics and Mining Sciences. 37, 1149-1154 (2000).
•	D. Bahat, P. Bankwitz, and E. Bankwitz. Changes of crack velocities at the transition from the parent joint through the en echelon fringe to a secondary mirror plane.J. Struct. Geol. 23, 1215-1221(2001).
•	D. Bahat, A. Rabinovitch and V. Frid. Fracture characterization of chalk in uniaxial and triaxial tests by rock mechanics, fractographic and electromagnetic radiation methods. J. Struct. Geol. 23, 1531-1547 (2001).
•	J. Goldbaum, A. Rabinovitch, V. Frid and D. Bahat. Electromagnetic radiation emitted by percussion drilling. Intern. J. Fracture. 111, L15-L20 (2001).
•	P. Bankwitz, Bahat, D. and E. Bankwitz. Joint formation in granite plutons: En echelon-hackle series on mirror fringes (Example: South Moldanubian Pluton, Czech Republic). Z. dt.geol. Ges. 152, 593-609 (2001).
•	P. Bankwitz, E. Bankwitz, Bahat, D. and H. Kaempf. Fractography: Tectonophysical interpretation of granite joints. - In: Exkursionsfuehrer u. Veroeffentlichungen GGW, vol. 212: 142-156, Berlin (Bautzen meeting) (2001).
•	D. Bahat, P. Bankwitz, and E. Bankwitz. Joint formation in granite plutons: En echelon-hackle series on mirror fringes (Example: South Moldanubian Pluton, Czech Republic). - Zeitschrift der Deutschen Geologischen Gesellschaft (ZdGG), the WEBER volume, 152, 593-609 (2001).
•	Rabinovitch, V. Frid, and D. Bahat. Gutenberg-Richter type relation for laboratory fracture induced electromagnetic radiation. Physical Review E, 65, 011401-011404 (2002).
•	Rabinovitch, V. Frid, D. Bahat and J. Goldbaum. A new method to obtain crack surface areas from electromagnetic radiation emitted in fracture: A string of pulses. In IUTAM Symposium on Analytical and Computational Fracture Mechanics of Non-Homogeneous Materials, B. L. Karihaloo (ed.) Kluwer Academic Publishers, 343-348 (2002).
•	D. Bahat, P. Bankwitz, E. Bankwitz and A. Rabinovitch. Comparison of the new fracture areas created by the formation of en echelon and hackle fringes on joint surfaces. Zeitschrift für Geologische Wissenschaften, 30, 1-12 (2002).
•	Rabinovitch, D. Bahat and V. Frid. Similarity and dissimilarity of electromagnetic radiation from carbonate under compression, drilling and blasting. International Journal of Rock Mechanics and Mining Science, 39, 125-129 (2002).
•	D. Bahat, V. Frid, A. Rabinovitch and V. Palchik. Exploration via electromagnetic radiation and fractographic methods of fracture properties induced by compression in glass-ceramic.International Journal of Fracture, 116, 179-194 (2002).
•	D. Bahat, P. Bankwitz, E. Bankwitz. Pre-uplift joints in granites: Evidence for sub-critical and post-critical fracture growth and post-critical fracture growth. Geol. Soc. Amer. Bulletin,115,148-165 (2003).
•	Rabinovitch, V. Frid, D. Bahat, and J. Goldbaum. Decay mechanism of fracture induced electromagnetic pulses. J. Appl. Phys. 93, 5085-5090 (2003).
•	V. Frid, A. Rabinovitch, and D. Bahat. Fracture induced electromagnetic radiation. J. Physica D. 36, 1620-1628 (2003).
•	Rabinovitch, V. Frid, J. Goldbaum and D. Bahat. Polarization-depolarization process in glass during percussion drilling. Phil Mag. 83 (25), 2929–2940 (2003).
•	D. Bahat. Tectonofractography for geologists and geographers. In: Bar-Gal, Y., Kliute, N. and Peled, A. (Eds.) Studies in Eretz Israel (The Ron Aviel Volume), Haifa University, 135-145 (2004) (in Hebrew).
•	Rabinovitch, M. Friedman and D. Bahat. Failure time in heterogeneous materials - Non-homogeneous nucleation.Europhys. Lett., 67, 969–975 (2004).
•	D. Bahat. Eight distinct fault-joint geometric/genetic relationships in the Beer Sheva syncline, Israel. In: Cosgrove, JW. and Engelder, T. (Eds.) The Geological Society Publishing House, special Publication 231, 257-267 (2004).
•	D. Bahat, P. Bankwitz, E. Bankwitz. The index of hackle raggedness on joint-fringes. In: Cosgrove, JW. and Engelder, T. (Eds.) The Geological Society Publishing House, special Publication 231, 103-116 (2004).
•	V. Frid, D. Bahat and A. Rabinovitch. Analysis of en echelon/hackle fringes and longitudinal splits in twist failed glass samples by means of fractography and electromagnetic radiation. J. Struct. Geol. 27: 145-159 (2005).
•	Rabinovitch, A. Shay, R. Liraz, V. Frid and D. Bahat. Electromagnetic radiation emitted during friction process.Int. J. Fracture.131:L21–L27 (2005).
•	V. Frid, A. Rabinovitch, J. Goldbaum and D. Bahat. Depolarization in percussion drilling of Solenhofen limestone. J. Appl. Phys. 97: 149081-149083 (2005).
•	Howard and D. Bahat. Increased disintegration of subsoil layer of Eocene chalk near Beer –Sheva. N. Jb. Geol. Paläont. Mh. 6:347-358 (2005).
•	V. Frid, A. Rabinovitch, and D. Bahat. Crack velocity measurement by induced electromagnetic radiation. Physics Letters A. 356: 160-163 (2006).
•	Rabinovitch, V. Frid and D. Bahat. Wallner lines revisited. J. Appl. Phys. 99: 7 076102(2006).
•	Rabinovitch, V. Frid and D. Bahat. Surface oscillations- Apossible source of fracture induced electromagnetic radiation. Tectonophysics 431, 15-21 (2007).
•	Bahat, V. Frid,and A. Rabinovich.Paleo stress clockwise rotation in the Sinai–Israel sub-plate and the initiation of the Dead Sea Rift. Isr. J. Earth Sci.; 55: 159-171 (2007).
•	Bahat, V. Frid,A. Rabinovich, and A. Bankwitz. Comparative fracture of joints that strike parallel to structures in sedimentary rocks, characterization and implications. Isr. J. Earth Sci.; 55: 113-127 (2007).
•	R. Weinberger, and D. Bahat. Relative fracture velocities based on fundamental characteristics of joint-surface morphology.Terra Nova, 20: 68–73(2008).
•	Bahat, A. Rabinovitch and V. Frid. Correlation of plume morphologies on joint surfaces with their fracture mechanic implications. Geol. Mag. 5, 733-744 (2008).
•	Bahat, A. Rabinovich, V. Frid, and F. J. Brosch. Cycles of sub-critical tensile and shear alternating fracturing indiminishing dimensions, under tensile loading. Int. J. Fracture 148, 281-290 (2008).
•	Rabinovitchand D. Bahat. Mirror-mist transition in brittle fracture Phys. Rev. E 78, 1 (2008).
•	Howard, I. Dinstein and D. Bahat.Song of the Earth 2008:, Geoscientist. The Geological Society of London, 18.11 (2008).
•	Book Compilation – D. Bahat. Geological Research, The Negev and Sinai Volume 1978-1988, (1989) 916 pp. Papers published by faculty of the Department of Geology and Mineralogy.
•	Monograph 1. D. Bahat. Tectonofractography, Springer -Verlag (1991) 354 pp. Fracture in technological materials and in rocks: a new approach to structural geology. A treatise supported by 290 illustrations.
o	Comments by JOHN G RAMSAY and RICHARD LISLE (2000, p. 974) in their book MODERN STRUCTURAL GEOLOGY, Volume 3, by ACADEMIC PRESS:Perhaps the most outstanding account of joint geometry, surface morphology and mechanisms of formation. Of particular interest is the discussion of these features from the viewpoints of other materials sciences describing fracture in glass, ceramics and metals. The book. is extremely well illustrated and is highly recommended.
•	Monograph 1. D. Bahat, A. Rabinovitch and V. Frid. Tensile Fracturing in Rocks, Tectonofractographic and Electromagnetic Radiation Methods. Springer (2005) 569 pp.
o	Comments by JEFFREY R. KEATON, in Envir & Engin.Geosciences, 12: 283-291 (2006): This is “an advanced reference book that provides detailed notes on interesting aspects of fractures for the serious researcher”. Each chapter has its merits, and, “the description and analysis of joints in sandstone at Zion Park were nothing short of inspiring”.
•	Academic Development. Dov Bahat. Guidelines For Academic Development - a report by the Rector, consisting of some 60 sections and an extended memorandum on environmental programs dealing with various issues that face the Ben-Gurion University in the year 2000 (1994).

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