1.Researches on Tectonic Modeling Using 3-D Finite Element Method
(Reviewed papers)
Hashimoto, M., 1980, Three-dimensional stress distribution in southwestern Japan as expected from the configuration of the subducting Philippine Sea plate (Part 1), Zisin(Journal of Seismological Society of Japan), Vol.33, 465-478 (in Japanese with English abstract).
Hashimoto, M., 1981, Three-dimensional stress distribution in southwestern Japan as expected from the configuration of the subducting Philippine Sea plate (Part 2), Zisin(Journal of Seismological Society of Japan), Vol.34, 197-211 (in Japanese with English abstract).
Hashimoto, M., 1984, Finite element modeling of deformation of the lithosphere at an arc-arc junction: the Hokkaido corner, Japan, Journal of Physics of the Earth, Vol.32, 373-398.
Hashimoto, M., 1985, Finite element modeling of the three-dimensional tectonic flow and stress field beneath the Kyushu island, Japan, Journal of Physics of the Earth, Vol.33, (1985), 191-226.
Yoshioka, S., M. Hashimoto, and K. Hirahara, 1989, Displacement fields due to the 1946 Nankaido earthquake in a laterally inhomogeneous structure with the subducting Philippine Sea plate - a three-dimensional finite element approach, Tectonophysics, Vol.159, 121-136.
Yoshioka, S., and M. Hashimoto, 1989, The stress field induced from the occurrence of the 1944 Tonankai and the 1946 Nankaido earthquakes, and their relation to impending earthquakes, Physics of the Earth and Planetary Interiors, Vol.56, 349-370.
Yoshioka, S., and M. Hashimoto, 1989, A quantitative interpretation on possible correlation between intraplate seismic activity and interplate great earthquakes along the Nankai trough, Physics of the Earth and Planetary Interiors, Vol.58, 173-191.
2.Researches on Source Models for Earthquakes and Volcanic Eruptions Using Geodetic Data
(Reviewed papers)
Hashimoto, M., and T. Tada, 1988, Crustal deformations before and after the 1986 eruption of Izu Oshima volcano, Kazan(Journal of Volcanological Society of Japan), Vol.33, Special Issue on the Eruption of Izu Oshima, S136-S144 (in Japanese with English abstract).
Tada, T., and M. Hashimoto, 1988, A fault model of the 1918 Omachi, central Japan, earthquake amd its tectonic significance, Zisin(Journal of Seismological Society of Japan), Vol.41, 259-262 (in Japanese with English abstract).
Tada, T., and M. Hashimoto, 1991, Anomalous crustal deformation in the northeastern Izu peninsula and its tectonic significance - tension crack model -, Journal of Physics of the Earth, Vol.39, 197-218.
Hashimoto, M., and T. Tada, 1992, A model for crustal deformations associated with the 1914 great eruption of Sakurajima volcano, Kagoshima, Japan. Tectonophysics, Vol.255, 427-436.
Hashimoto, M., 1994, Crustal movements associated with magma intrusion in Izu-Oshima and eastern Izu, Journal of Geography, Vol.103, 528-536 (in Japanese with English abstract).
Hashimoto, M., T. Sagiya, S. Ozawa, and T. Tada, 1994, Fault models for the crustal movements associated with the 1993 Off Kushiro earthquake and the 1993 Southwestern Off Hokkaido earthquake and their tectonic significance, Proceedings of the CRCM'93, Kobe, December 6-11, 1993, 57-64.
Ozawa, S., M. Hashimoto, T. Sagiya, and T. Tada, 1994, Coseismic deformation of Okushiri island associated with the 1993 Southwest Off Hokkaido earthquake detected by GPS survey, Proceedings of the CRCM'93, Kobe, December 6-11, 1993, 147-150.
Tsuji, H., Y. Hatanaka, T. Sagiya, and M. Hashimoto, 1995, Coseismic crustal deformation from the 1994 Hokkaido-Toho-Oki earthquake monitored by a nationwide continuous GPS array in Japan, Geophysical Research Letters, Vol.22, 1669-1672.
Hashimoto, M., 1995, Inversion of geodetic data: a kinematic interpretation of crustal deformations, Journal of Geography, Vol.104, 1032-1046 (in Japanese with English abstract).
Horikawa, H., K. Hirahara, Y. Umeda, M. Hashimoto and F. Kusano, 1996, Simultaneous inversion of geodetic and strong-motion data for the process of the Hyogo-ken Nanbu, Japan, earthquake, Journal of Physics of the Earth, Vol.44, 455-471.
Hashimoto, M., 1998, A view of the 1995 Hyogo-ken Nanbu earthquake derived from geodetic surveys, Memoir of Geological Society of Japan, No.51, 37-50 (in Japanese with English abstract).
(Non-reviewed papers)
Hashimoto, M., 1998, Rupture process obased on geodetic data, "Reports on the "Great Hanshin-Awaji Earthquake Disaster", 123-139 (in Japanese with English abstract)
3.Researches on the Deformations of the Japanese Islands on the basis of Geodetic Data
(Reviewed papers)
Hashimoto, M. and T. Tada, 1988, Horizontal crustal movements in Hokkaido and its tectonic implications, Zisin(Journal of Seismological Society of Japan), Vol.41, 29-38 (in Japanese with English abstract).
Tada, T. and M. Hashimoto, 1990, Horizontal crustal deformation in the northern and central Fossa Magna regions and itstectonic significance, Journal of Geography, Vol.99, 92-97 (in Japanese with English abstract).
Hashimoto, M., 1990, Horizaontal strain rates in the Japanese islands during interseismic period deduced from geodetic surveys (Part 1): Honshu, Shikoku and Kyushu, Zisin(Journal of Seismological Society of Japan), Vol.43, 13-26 (in Japanese with English abstract).
Hashimoto, M., and D.D. Jackson, 1993, Plate tectonics and crustal deformation around the Japanese islands, Journal of Geophysical Research, Vol.92, 16149-16166.
Le Pichon, X., S. Mazzotti, P. Henry, and M. Hashimoto, 1998, Deformation of Japanese islands and seismic coupling: an interaction based on GSI permanent GPS observations, Geophysical Journal International, Vol.134, 501-514.
Ishikawa, N. and M. Hashimoto, 1999, Average horizontal crustal strain rates in Japan during interseismic period deduced from geodetic surveys (Part 2),, Zisin(Journal of Seismological Society of Japan), Vol.52, 299-315 (in Japanese with English abstract)
Hashimoto, M., S. Miyazaki, and D.D. Jackson, 2000, A block-fault model for deformation of the Japanese islands derived from continuous GPS observation, Earth Planets and Space, Vol.52, 1095-1100.
(Non-reviewed papers)
Ozawa, S., M. Hashimoto, and T. Tada, 1997, Vertical crustal movements in the coastal areas of Japan estimated from tidal observations, Bulletin of Geographical Survey Institute, Vol. 43, 1-21.
4.Simulation Studies of the Stress Changes in Crust
(Reviewed papers)
Hashimoto, M., 1995, Static stress changes associated with the kobe earthquake: calculation of changes in Coulomb failure function and comparison with seismicity change, Zisin(Journal of Seismological Society of Japan), Vol.48, 521-530 (in Japanese with English abstract).
Hashimoto, M., 1997, Correction to "Static stress changes associated with the kobe earthquake: calculation of changes in Coulomb failure function and comparison with seismicity change", Zisin(Journal of Seismological Society of Japan), Vol.50, 21-27 (in Japanese with English abstract).
Hashimoto, M., 1998, Simulation of temporal variation in Coulomb failure functions in the source region of the Hyogo-ken Nanbu earthquake, Zisin(Journal of Seismological Society of Japan), Vol.50, Supplment, 229-249 (in Japanese with English abstract).
Hashimoto, M., 2001, Complexity in the recurrence of large earthquakes in southwest Japan: A simulation with an interacting fault system model, Earth Planets and Space, Vol.52, 249-259.
(Non-reviewed papers)
Hashimoto, M., 1997, Changes in Coulomb failure function due to the occurrence of the M7.2 Kobe earthquake of January 17, 1995, as a possible measure of the change in seismicity, in “Earthquake Proof Design and Active Faults”, ed. Y. Kanaori, Developments in Geotechnical Engineering, Vol. 81, 181-197.
Hashimoto, M., 1998, Simulation of activity of large earthquakes in and around southwest Japan on the basis of back-slip model, Annuals of Disas. Prev. Res. Inst., Kyoto Univ., No. 41 B-1, 45-59.
Hashimoto, M., 1999, Complexity in recurrence of large earthquakes in southwest Japan: A simulation with interacting fault system model, Proceedings of International Workshop on Recurrence of Great Interplate Earthquakes and its Mechanism, 189-201.
Hashimoto, M., 2000, A simulation of activity of large earthquakes in and around the Japanese islands with interacting fault system model, “Active Fault Research for the New Millennium”, Proceedings of the HOKUDAN International Symposium and School on Active Faulting”, 99-102.