Garagash, I. A., and V. A. Ermakov (2001), Use of geological and geophysical models for simulating of crust stress state on the example of Sakhalin and Tien-Shan, in: Problems of Seismicity of the Far East, p. 33, Nauka, Khabarovsk.
Garagash, I. A., L. I. Lobkovsky, O. R. Kozyrev, and R. Kh. Mazova (2003), Generation and run-up of tsunami waves due to submarine landslide, Oceanology, 43, (2), 185.
Garagash, I. A., and L. I. Lobkovsky (2006), An analysis of the dynamic displacement process of the sea bottom due to a subduction zone earthquake, in: Proc. of 4th International FLAC Symposium on Numerical Modeling in Geomechanics, p. 321, Balkema Press, Madrid.
Goto, C., Y. Ogava, N. Shuto, and N. Imamure (1997), Numerical Method of Tsunami Simulation with the Leap-Frog Scheme (IUGG/IOC Time Project), Manual and Guides, No. 35, 4 Parts, 126 pp., UNESCO, Paris.
Hirata, K., K. Satake, Y. Tanioka, T. Kuragano, Y. Hasegawa, Y. Hayashi, and N. Hamada (2006), The 2004 Indian Ocean tsunami: Tsunami source model from satellite altimetry, Earth Planets Space, 58(3), 195.
Kulikov, E., I. Medvedev, and S. Lappo (2005), Satellite recording of the Indian Ocean tsunami on 26 December, 2004, Dokl. Ros. Akad. Nauk, 401A, 444.
Lay, T., H. Kanamori, C. Ammon, M. Nettles, S. Ward, R. Asteer, S. Beck, S. Bilek, M. Brudzinski, R. Butler, H. Deshon, G. Ekstrom, K. Satake, and S. Sipkin (2005), The great Sumatra-Andaman earthquake of 26 December, 2004, Science, 308, 1127, doi:10.1126/science.1112250. [CrossRef]
Lobkovsky, L. I. (1988), Geodynamics of Spreading and Subduction Zones, and Two-Level Plate Tectonics, 253 pp., Nauka, Moscow.
Lobkovsky, L. I., V. I. Kerchman, B. V. Baranov, and E. I. Pristavkina (1991), Analysis of seismotectonic processes in subduction zones from the standpoint of a keyboard model of great earthquakes, Tectonophysics, 199, 211, doi:10.1016/0040-1951(91)90173-P. [CrossRef]
Lobkovsky, L. I., A. M. Nikishin, and V. E. Khain (2004), Current Problems of Geotectonics and Geodynamics, 611 pp., Scientific World Press, Moscow.
Lobkovsky, L., R. Mazova, I. Garagash, L. Kataeva, and N. Petrukhin (2005a), Analysis of the 26 December, 2004 Earthquake and Tsunami in the Indian Ocean on the Basis of the Subduction Keyboard Model, Geophys. Res. Abstr. of EGU General Assembly, Austria, Vienna, 24-30 April 2005, 7, 00949.
Lobkovsky, L. I., R. Kh. Mazova, and L. Yu. Kataeva (2005b), The Source Mechanism of Indian Ocean Tsunami of 26 December, 2004, Proc. of Int. Tsunami Symposium, 295 pp., Chania, Crete Isl., Greece, 27-29 June, 2005.
Lobkovsky, L. I., R. Kh. Mazova, B. V. Baranov, and L. Yu. Kataeva (2006), Generation and propagation of tsunami in the Sea of Okhotsk (possible scenarios), Dokl. Ross. Akad. Nauk (in Russian), 410, 528.
Mazova, R. Kh., and J. F. Ramirez (1999), Tsunami wave with an initial negative wave on the Chilean coast, Nat. Hazards, 20, 83, doi:10.1023/A:1008160113672. [CrossRef]
Okada, Y. (1992), Internal deformation due to shear and tensile faults in a half-space, Bull. Seismol. Soc. Am., 82, 1018.
Sielecki, A., and M. Wurtele (1970), The numerical integration of the nonlinear shallow water equations with sloping boundaries, J. Comput. Phys., 6, 219, doi:10.1016/0021-9991(70)90022-7. [CrossRef]
Soloviev, S. L., A. V. Nekrasov, V. G. Bukhteev, and R. V. Pyaskovsky (1977), Preliminary tsunamizonation of Kurile-Kamchatka coast on the basis of hydrodynamical computations, in: Theoretical and Experimental Research on the Tsunami Problem, p. 131, Nauka, Moscow.
Titov, V., A. Rabinovich, H. Mofjeld, R. E. Tomson, and F. I. Gonzalez (2005), The global reach of the 26 December Sumatra tsunami, Science, 309, 2045, doi:10.1126/science.1114576. [CrossRef]