Deformation Field Produced by a Doublet Source in a Half-Space Model
Subject Areas : Mechanics of Solids
1 - Department of Mathematics, Guru Jambheshwar University of Science and Technology, Hisar-125001, India
2 - Department of Mathematics, Guru Jambheshwar University of Science and Technology, Hisar-125001, India
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[1] Singh S.J., Ben-Menahem A., 1969, Displacement and strain fields due to faulting in a sphere, Physics of the Earth and Planetary Interiors 2: 77-87.
[2] Singh S.J., 1970, Static deformation of a multilayered half-space by internal sources, Journal of Geophysical Research 75: 3257-3263.
[3] Singh S.J., Ben-Menahem A., Vered M., 1973, A unified approach to the representation of seismic sources, Proceedings of The Royal Society of London A 331: 525-551.
[4] Freund L.B., Barnett D.M., 1976, A two-dimensional analysis of surface deformation due to dip-slip faulting, Bulletin of the Seismological Society of America 66: 667-675.
[5] Aki K., Richards P.G., 1980, Quantitative Seismology: Theory and Methods, San Francisco.
[6] Stein S., Wysession M., 2003, An Introduction to Seismology, Earthquakes, and Earth Structure, Blackwell Publishing, Oxford.
[7] Okada Y., 1985, Surface deformation due to shear and tensile faults in a half-space, Bulletin of the Seismological Society of America 75: 1135-1154.
[8] Bonafede M., Dragoni M., Quareni F., 1986, Displacement and stress fields produced by a center of dilatation and by a pressure source in a viscoelastic half-space: application to the study of ground deformation and seismic activity at vampi flegeri, Geophysical Journal International 87: 455-485.
[9] Singh K., Singh S.J., 1989, Static and quasi-static deformation of a uniform half space by buried sources, Geophysical Journal International 27: 1-30.
[10] Roberts P.M., Phillips W.S., Fehler, M.C., 1992, Development of the active doublet method for measuring small velocity and attenuation changes in solids, Journal of the Acoustical Society of America 91: 3291.
[11] Horikawa H., 2001, Earthquake doublet in kagoshima, Japan: rupture of asperities in a stress shadow, Bulletin of the Seismological Society of America 91:112-127.
[12] Pandolfi D., Bean C.J., Saccorotti G., 2006, Coda wave interferometric detection of seismic velocity changes associated with the 1999 M = 3.6 event at Mt. vesuvius, Geophysical Research Letters 33: L06306.
[13] Wang R., Lorenzo-Martin F., Roth F., 2006, PSGRN/PSCMP- a new code for calculating co- and post-seismic deformation, geoid and gravity changes based on the viscoelastic-gravitational dislocation theory, Computer & Geosciences 32: 527-541.
[14] Lin C.H., Yeh Y.H., Ando M., 2008, Earthquake doublet sequences: evidence of static triggering in the strong convergent zones of taiwan, Terrestrial Atmospheric and Oceanic Sciences 19: 589-594.
[15] Lai K.Y., Chen Y.G., Wu Y.M., 2009, The 2005 Ilan earthquake doublet and seismic crisis in northeastern Taiwan: evidence for dyke intrusion associated with on-land propagation of the Okinawa Trough, Geophysical Journal International 179: 678-686.
[16] Kogan M.G., Vasilenko N.F., Frolov D.I., 2011, The mechanism of postseismic deformation triggered by the 2006-2007 great kurli earthquakes, Geophysical Research Letters 38: L06304.
[17] Donnera S., Ghodsb A., Krugera F., 2015, The Ahar-Varzeghan earthquake doublet (Mw 6.4 and 6.2) on 11 August 2012: Regional Seismic Moment Tensors and a Seismotectonic Interpretation, Bulletin of the Seismological Society of America 105: 791-807.
[18] Nissen E., Elliott J.R., Solan R.A., 2016, Limitations of rupture forecasting exposed by instantaneously triggered earthquake doublet, Nature Geoscience 9(4): 330-336.
[19] Verma N., and Singh K., 2020a, Deformation of two welded half-spaces caused by a centre of rotation source, Physics of the Earth and Planetary Interiors 299(106410): 1-12.
[20] Verma N., Singh K., 2020b, A comparative study of deformation field due to center of dilatation and center of rotation in a viscoelastic half-space model, Physics of the Earth and Planetary Interiors 299(106428), 1-7.
[21] Granik V.T., Ferrari M., 1993, Microstructural mechanics of granular media, Mechanics of Materials 15: 301-322.
[22] Ferrari M., Granik V.T., Imam A., Nadeau J., 1997, Advance in Doublet Mechanics, Springer.
[23] Sadd M.H., Dai Q.L., Parameswaran V., Shukla A., 2004a, Microstructural simulation of asphalt materials: modelling and experimental studies, Journal of Civil Engineering 16(2): 107-115.
[24] Mindlin R.D., Cheng D.H., 1950, Nuclei of strain in the semi-infinite solid, Journal of Applied Physics 21: 926-930.
[25] Mindlin R.D., 1936, Force at a point in the interior of a semi-infinite solid, Journal of Applied Physics 7: 195-202.
[26] Singh K., Singh S.J., 1990, Simple procedure for obtaining the quasi-static displacement, strains, and stresses in a viscoelastic half-space, Bulletin of the Seismological Society of America 80: 488-492.
