Antolik, M., D. Dreger And B. Romanowicz, 1999, Rupture processes of large deep-focus earthquakes from inversion of moment rate functions, J. of Geophys. Res., Vol. 104, No. B1, pp. 863-894.
Collier, D. J., G. R. Helffrich And B. J. Wood, 2001, Seismic discontinuities and subduction zones, Physics of the Earth Planetary Interiors, 127, 35-49.
Frohlich, C., 1989, The nature of deep focus earthquakes. Ann. Rev. Earth Planet. Sci. 17, 227 – 254.
Isacks, B., J. Oliver And L.R. Sykes, 1968, Seismology and new global tectonics, J. Geophys. Res., 73, 5855-5899.
Isacks, B. And P. Molnar, 1971, Distribution of stresses in the descending lithosphere from global survey of focal mechanizm solution of mantle earthquake, Rev. Geophys. And Space Phys., 9, 103- 174.
Jeffreys, H. And K. E. Bullen, 1958, Seismological Tables, Office of the British Association, Burlington House, London.
Kanamori, H., 1971, Great earthquakes at island arcs and the lithosphere, Tectonophysics, 12, 187 – 198.
Kelleher, J., J. Savıno, H. Rowlett And W. Mccann, 1974, Why and Where great thrust earthquakes occur along islands arcs, J. Geophys. Res.,79, 4889 – 4919.
Kikuchi, M., And H. Kanamori, 1982, Inversion of complex body waves Bull. Seis. Soc. Am., 72,491- 506.
Kikuchi, M., And Y. Fukao, 1985, Iterative deconvolution of complex body waves from great earthquakes – the Tokachi – Oki earthquake of 1968, Phys. Earth Planet Interiors, Vol. 7, pp. 25-248, 1985.
Kikuchi, M., And H. Kanamori, 1991, Inversion of complex body waves – III. Bull. Seis. Soc. Am., 81. 2335-2350.
Kikuchi, M., H. Kanamori And K. Satake, 1993, Source complexity of the 1988 Armenian earthquake: evidence for a slow after-slip event, J. Geophys. Res., Vol. 98, pp. 15,797 - 15,808.
Lay, T., T.C. Wallace, 1995, Modern Global Seismology, Academic Press, San Diego, ISBN 0- 12-732870-X.
Okal, E. A., 2001, “Detached” deep earthquakes: are they really?, Physics of the Earth Planetary Interiors, 127, 109-143.
Oliver, J., and B. Isacks, 1967, Deep Earthquake Zones, Anomalous Structures in the Upper Mantle, and the Lithosphere, Journal of Geophys. Res., Vol.72, No.16.
Özçelik, S., 2004, Derin Depremlerin (400 –670 km) Oluşum Mekanizmalarının Dalga Şekli Ters Çözüm Yöntemiyle Araştırılması, Yüksek Lisans Tezi, İstanbul Üniversitesi Fen Bilimleri Enstitüsü, 2004, İstanbul.
Page, R., 1968, Focal depths of aftershocks, J. Geophys. Res. 73, 3897 – 3903.
Pınar, A., 1995, Rupture Process and Spectra of Some Major Turkish Earthquakes and Their Seismotectonic Implications, Bogazici University, Istanbul.
Pınar, A., 1998, Source inversion of the October1,1995,Dinar earthquake (Ms=6.1):a rupture model with implications for seismotectonics in SW Turkey, Tectonophysics 292, 255-266.
Tibi, R.,G. Guenter And D.A. Wiens, 2003, Source characteristics of large deep earthquakes: Constraint on the faulting mechanism at great depths, J. Geophys. Res., Vol. 108, NO. B2, 2091.
Toksöz, M.N., J.W. Minear And B.R. Julian, 1971, Temperature field and geophysical effects of a down going slab, J. Geophy. Res., 76, 1113-1138.
Widiyantoro, S., B. L. N. Kennett And R. D. Van Der Hilst, 1999, Seismic tomography with P and S data reveals lateral variations in the rigidity of deep slabs. Earth Planet. Sci. Lett. 173, 91–100.
Wiens, D.A. And H. J. Gilbert, 1996, Effect of slab temperature on deep-earthquake aftershock productivity and magnitude-frequency relations, Nature, 384, 153 – 156.
Wiens, D. A., J. Hildebrand, And W. Crawford, 1996, Source and aftershock studies of the 1995 Marianas and 1996 Flores Sea deep earthquakes, Eos Trans. AGU, 77(46), Fall. Meet. Suppl., F491- F492.
Wiens, D. A., 2001, Seismological constraints on the mechanism of deep earthquakes: temperature dependence of deep earthquake source properties, Physics of the Earth and Planetary Interiors, 127, 145 – 163.
Wu, L. R. And W. P. Chen, 1999, Anomalous aftershocks of deep earthquakes in Mariana, Geophys. Res. Lett., Vol. 26, No. 13, pp. 1977- 1980.
Yayına Geliş - Received : 16.09.2004
Yayına Kabul - Accepted : 31.03.2005
Year 2005,
Volume: 18 Issue: 1, 53 - 62, 19.03.2012
Antolik, M., D. Dreger And B. Romanowicz, 1999, Rupture processes of large deep-focus earthquakes from inversion of moment rate functions, J. of Geophys. Res., Vol. 104, No. B1, pp. 863-894.
Collier, D. J., G. R. Helffrich And B. J. Wood, 2001, Seismic discontinuities and subduction zones, Physics of the Earth Planetary Interiors, 127, 35-49.
Frohlich, C., 1989, The nature of deep focus earthquakes. Ann. Rev. Earth Planet. Sci. 17, 227 – 254.
Isacks, B., J. Oliver And L.R. Sykes, 1968, Seismology and new global tectonics, J. Geophys. Res., 73, 5855-5899.
Isacks, B. And P. Molnar, 1971, Distribution of stresses in the descending lithosphere from global survey of focal mechanizm solution of mantle earthquake, Rev. Geophys. And Space Phys., 9, 103- 174.
Jeffreys, H. And K. E. Bullen, 1958, Seismological Tables, Office of the British Association, Burlington House, London.
Kanamori, H., 1971, Great earthquakes at island arcs and the lithosphere, Tectonophysics, 12, 187 – 198.
Kelleher, J., J. Savıno, H. Rowlett And W. Mccann, 1974, Why and Where great thrust earthquakes occur along islands arcs, J. Geophys. Res.,79, 4889 – 4919.
Kikuchi, M., And H. Kanamori, 1982, Inversion of complex body waves Bull. Seis. Soc. Am., 72,491- 506.
Kikuchi, M., And Y. Fukao, 1985, Iterative deconvolution of complex body waves from great earthquakes – the Tokachi – Oki earthquake of 1968, Phys. Earth Planet Interiors, Vol. 7, pp. 25-248, 1985.
Kikuchi, M., And H. Kanamori, 1991, Inversion of complex body waves – III. Bull. Seis. Soc. Am., 81. 2335-2350.
Kikuchi, M., H. Kanamori And K. Satake, 1993, Source complexity of the 1988 Armenian earthquake: evidence for a slow after-slip event, J. Geophys. Res., Vol. 98, pp. 15,797 - 15,808.
Lay, T., T.C. Wallace, 1995, Modern Global Seismology, Academic Press, San Diego, ISBN 0- 12-732870-X.
Okal, E. A., 2001, “Detached” deep earthquakes: are they really?, Physics of the Earth Planetary Interiors, 127, 109-143.
Oliver, J., and B. Isacks, 1967, Deep Earthquake Zones, Anomalous Structures in the Upper Mantle, and the Lithosphere, Journal of Geophys. Res., Vol.72, No.16.
Özçelik, S., 2004, Derin Depremlerin (400 –670 km) Oluşum Mekanizmalarının Dalga Şekli Ters Çözüm Yöntemiyle Araştırılması, Yüksek Lisans Tezi, İstanbul Üniversitesi Fen Bilimleri Enstitüsü, 2004, İstanbul.
Page, R., 1968, Focal depths of aftershocks, J. Geophys. Res. 73, 3897 – 3903.
Pınar, A., 1995, Rupture Process and Spectra of Some Major Turkish Earthquakes and Their Seismotectonic Implications, Bogazici University, Istanbul.
Pınar, A., 1998, Source inversion of the October1,1995,Dinar earthquake (Ms=6.1):a rupture model with implications for seismotectonics in SW Turkey, Tectonophysics 292, 255-266.
Tibi, R.,G. Guenter And D.A. Wiens, 2003, Source characteristics of large deep earthquakes: Constraint on the faulting mechanism at great depths, J. Geophys. Res., Vol. 108, NO. B2, 2091.
Toksöz, M.N., J.W. Minear And B.R. Julian, 1971, Temperature field and geophysical effects of a down going slab, J. Geophy. Res., 76, 1113-1138.
Widiyantoro, S., B. L. N. Kennett And R. D. Van Der Hilst, 1999, Seismic tomography with P and S data reveals lateral variations in the rigidity of deep slabs. Earth Planet. Sci. Lett. 173, 91–100.
Wiens, D.A. And H. J. Gilbert, 1996, Effect of slab temperature on deep-earthquake aftershock productivity and magnitude-frequency relations, Nature, 384, 153 – 156.
Wiens, D. A., J. Hildebrand, And W. Crawford, 1996, Source and aftershock studies of the 1995 Marianas and 1996 Flores Sea deep earthquakes, Eos Trans. AGU, 77(46), Fall. Meet. Suppl., F491- F492.
Wiens, D. A., 2001, Seismological constraints on the mechanism of deep earthquakes: temperature dependence of deep earthquake source properties, Physics of the Earth and Planetary Interiors, 127, 145 – 163.
Wu, L. R. And W. P. Chen, 1999, Anomalous aftershocks of deep earthquakes in Mariana, Geophys. Res. Lett., Vol. 26, No. 13, pp. 1977- 1980.
Özçelik, S., & Pınar, A. (2012). Derin ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi. İstanbul Yerbilimleri Dergisi, 18(1), 53-62.
AMA
Özçelik S, Pınar A. Derin ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi. İstanbul Yerbilimleri Dergisi. March 2012;18(1):53-62.
Chicago
Özçelik, Serkan, and Ali Pınar. “Derin Ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi”. İstanbul Yerbilimleri Dergisi 18, no. 1 (March 2012): 53-62.
EndNote
Özçelik S, Pınar A (March 1, 2012) Derin ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi. İstanbul Yerbilimleri Dergisi 18 1 53–62.
IEEE
S. Özçelik and A. Pınar, “Derin ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi”, İstanbul Yerbilimleri Dergisi, vol. 18, no. 1, pp. 53–62, 2012.
ISNAD
Özçelik, Serkan - Pınar, Ali. “Derin Ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi”. İstanbul Yerbilimleri Dergisi 18/1 (March 2012), 53-62.
JAMA
Özçelik S, Pınar A. Derin ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi. İstanbul Yerbilimleri Dergisi. 2012;18:53–62.
MLA
Özçelik, Serkan and Ali Pınar. “Derin Ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi”. İstanbul Yerbilimleri Dergisi, vol. 18, no. 1, 2012, pp. 53-62.
Vancouver
Özçelik S, Pınar A. Derin ve Büyük Depremlerin Kaynak Mekanizmalarının İncelenmesi. İstanbul Yerbilimleri Dergisi. 2012;18(1):53-62.