C. Aubourg, Y. Chou, S. R. Song, A. M. Boullier, and C. T. Lee, A new portrait of mm-­?thick 716 principal slip zone of the ChiChi earthquake (Mw 7, p.717, 1999.

Y. Awata and K. Mizuno, Strip map of the surface fault ruptures associated with the, 1995.

S. Boutareaud, D. G. Calugaru, R. Han, O. Fabbri, K. Mizoguchi et al., Clay-­?clast agregates: a new structural evidence for seismic fault sliding? Geophysical 741, Research Letters, vol.740, issue.35, pp.530210-1029, 2008.

S. Boutareaud, A. M. Boullier, M. Andreani, D. G. Calugaru, P. Beck et al., Clay clast aggregates in gouges: New textural evidence for seismic faulting, Journal of Geophysical Research, vol.95, issue.B10, p.744, 2010.
DOI : 10.1029/2008JB006254

URL : https://hal.archives-ouvertes.fr/insu-00644945

. Workshop, Rapid Reponse Fault Drilling: Past, Present and Future, Scientific Drilling, vol.8, issue.747, pp.66-74, 2009.

J. Caine, J. Evans, and C. Forster, Fault zone architecture and permeability structure, Geology, vol.24, issue.11, pp.26-1025, 1996.
DOI : 10.1130/0091-7613(1996)024<1025:FZAAPS>2.3.CO;2

K. C. Chen, B. S. Huang, J. H. Wang, W. G. Huang, T. M. Chang et al., An observation of rupture pulses of the earthquake from near-­?field seismograms, America, vol.758, issue.5, pp.757-91, 1999.

J. S. Chester, F. M. Chester, and A. K. Kronenberg, Fracture surface energy of the Punchbowl Boullier The fault zone geology 25, 2005.

M. L. Doan and G. Gary, Rock pulverization at high strain rate near the San??Andreas fault, Nature Geoscience, vol.298, issue.10, p.779, 2009.
DOI : 10.1038/ngeo640

URL : https://hal.archives-ouvertes.fr/hal-00425457

O. Dor, Y. Ben-­?zion, T. K. Rockwell, and J. Brune, Pulverized rocks in the Mojave section, p.781, 2006.

O. Fabbri, K. Iwamura, S. Matsunaga, G. Coromina, and Y. Kanaori, Distributed strike-­?slip 783 faulting, block rotation, and possible intracrustal vertical decoupling in the convergent zone 784 of southwest Japan, Vertical Coupling and Decoupling of the Lithosphere, pp.141-166, 2004.

V. Famin, S. Nakashima, A. M. Boullier, K. Fujimoto, and T. Hirono, Earthquakes produce 788 carbon dioxide in crustal faults, Earth and Planetary Science Letters, vol.265, pp.3-4, 2008.

K. Fujimoto, H. Tanaka, T. Higuchi, N. Tomida, T. Ohtani et al., Alteration and mass 790 transfer inferred from the Hirabayashi GSJ drill penetrating the Nojima Fault, Japan. The 791, Island Arc, vol.10, issue.3, pp.401-410, 2001.

T. Fukuchi and N. Imai, ESR and ICP analyses of the DPRI 500 m drill core samples 796 penetrating through the Nojima Fault, Japan. The Island Arc, vol.10, pp.3-4, 2001.

T. Fukuchi, K. Mizoguchi, and T. Shimamoto, Ferrimagnetic resonance signal produced by 798 frictional heating: A new indicator of paleoseismicity, Journal of Geophysical Research, p.799, 2005.

J. P. Gratier, P. Favreau, and F. Renard, Modeling fluid transfer along California faults when 801 integrating pressure solution crack sealing and compaction processes, Journal of Geophysical Research, vol.802, issue.108B2, pp.28-52, 2003.

J. P. Gratier and F. Gueydan, Deformation in the presence of fluids and mineral reactions: Boullier The fault zone geology 26, 2007.

T. Kuramoto, K. Sugiyama, and T. Sugawara, Non-­?destructive continuous physical 824 property measurements of core samples recovered from hole B, 2007.

M. Tanimizu, W. Soh, E. C. Yeh, and S. R. Song, Characterization of slip zone associated 828 with the 1999 Taiwan Chi-­?Chi earthquake: X-­?ray CT image analyses and microstructural 829 observations of the Taiwan Chelungpu Fault, Tectonophysics, vol.449, pp.63-84, 2008.

T. Hirose and T. Shimamoto, Growth of molten zone as a mechanism of slip weakening of 832 simulated faults in gabbro during frictional melting, Journal of Geophysical Research, p.833, 2005.

R. Ikeda, Outline of the fault zone drilling project by NIED in the vicinity of the, 1995.

K. Irikura, T. Iwata, H. Sekiguchi, A. Pitarka, and K. Kamae, Lesson from the, p.840, 1995.

K. Nanbu-earthquake, Why were such destructive motions generated to buildings?, J. Nat, p.841

T. Ishikawa, M. Tanimizu, K. Nagaishi, J. Matsuoka, O. Tadai et al., Coseismic fluid???rock interactions at high temperatures in the Chelungpu fault, Nature Geoscience, vol.88, issue.10, pp.679-683, 2008.
DOI : 10.2343/geochemj.40.121

S. Agar, A. Brie, and H. Yamamoto, Structure and physical properties of the Nojima Fault BUTSURI-­TANSA (Geophysical Exploration, pp.522-535, 1996.

H. Ito and T. Kiguchi, Distribution and properties of fractures in and around the Nojima Boullier The fault zone geology 27, 2005.

N. Keulen, H. Stunitz, and R. Heilbronner, Healing microstructures of experimental and natural fault gouge, Journal of Geophysical Research, vol.94, issue.4, pp.6205-867, 2008.
DOI : 10.1029/2007JB005039

T. Kiguchi, H. Ito, Y. Kuwahara, and T. Miyazaki, Estimating the permeability of the Nojima 869, 2001.

K. Kobayashi, S. Hirano, T. Arai, R. Ikeda, K. Omura et al., Distribution of fault rocks in the fracture 875 zone of the Nojima Fault at a depth of 1140 m: Observations from the Hirabayashi NIED drill 876 core, The Island Arc, vol.10, pp.3-4, 2001.

L. W. Kuo, S. R. Song, and H. Y. Chen, Characteristics of clay mineralogy in the fault zone of 878 the TCDP and its implication, Eos Trans. AGU, Fall Meet. Supp, vol.86, issue.52, pp.43-48, 2005.

L. Kuo, S. Song, E. Yeh, and H. Chen, Clay mineral anomalies in the fault zone of 880, 2009.

C. The and . Fault, Taiwan, and their implications, Geophysical Research Letters, vol.36, pp.881-891, 2009039269.

A. M. Lin, T. Shimamoto, T. Maruyama, M. Sigetomi, T. Miyata et al., Comparative study of cataclastic rocks from a drill core and outcrops of 884 the Nojima Fault zone on Awaji Island, Japan. The Island Arc, vol.10, pp.3-4, 2001.

A. Lin, N. Tanaka, S. Uda, and M. Satish-­?kumar, Repeated coseismic infiltration of meteoric 886 and seawater into deep fault zones: a case study of the Nojima Fault zone, Japan. Chemical Geology, vol.887, issue.2021, pp.139-153, 2003.

A. Lin, T. Maruyama, and K. Kobayashi, Tectonic implications of damage zone-­?related fault-­? 889 fracture networks revealed in drill core through the Nojima Fault, Japan. Tectonophysics, vol.890, pp.443-446, 2007.

T. Tomita, N. Tomida, S. Hirano, and A. Ymazaki, Examination of mineral assemblage and 909 chemical composition in the fracture zone of the Nojima Fault at a depth of 1140 m: Analyses 910 of the Hirabayashi NIED drill cores, The Island Arc, vol.10, issue.3, pp.422-429, 2001.

S. Hirano, Fracture-­?zone conditions on a recently active fault: insights from 913 mineralogical and geochemical analyses of the Hirabayashi NIED drill core on the Nojima 914, 2004.

S. Fault and . Japan, which ruptured in the 1995 Kobe earthquake, Tectonophysics, vol.378, issue.3 4, pp.143-163

K. Mizoguchi, T. Hirose, T. Shimamoto, and E. Fukuyama, Internal structure and permeability of the Nojima fault, southwest Japan, Journal of Structural Geology, vol.30, issue.4, pp.513-922, 2008.
DOI : 10.1016/j.jsg.2007.12.002

K. Mizoguchi, T. Hirose, T. Shimamoto, and E. Fukuyama, High-­?velocity frictional behavior 927 and microstructure evolution of fault gouge obtained from Nojima Fault, southwest Japan, Tectonophysics, vol.928, issue.471, pp.3-4, 2009.

J. Mori and H. Tanaka, Energy budget of the 1999 Chichi, Taiwan earthquake, p.933, 2002.

T. Ohtani, H. Tanaka, K. Fujimoto, T. Higuchi, N. Tomida et al., Internal structure of 953 the Nojima Fault zone from the Hirabayashi GSJ drill core, The Island Arc, vol.10, issue.3, pp.392-400, 2001.

K. Otsuki, N. Monzawa, and T. Nagase, Fluidization and melting of fault gouge during seismic 955 slip: Identification in the Nojima Fault zone and implications for focal earthquake 956 mechanisms, Journal of Geophysical Research-­Solid Earth, vol.108, pp.2192-957, 2003.

K. Otsuki, T. Uduki, N. Monzawa, and H. Tanaka, Clayey injection veins and pseudotachylyte 959 from two boreholes penetrating the Chelungpu Fault, Taiwan: Their implications for the 960 contrastive seismic slip behaviors during the 1999 Chi-­?Chi earthquake. The Island Arc, pp.22-961, 2005.

K. Otsuki, T. Hirono, M. Ornori, M. Sakaguchi, W. Tanigawa et al., Analyses of pseudotachylyte from Hole-­?B of Taiwan Chelungpu Fault Drilling Project 964 (TCDP); their implications for seismic slip behaviors during the 1999 Chi-­?Chi earthquake, pp.1-4, 2009.

P. Pezard, H. Ito, D. Hermitte, and A. Revil, Electrical properties and alteration of 970 granodiorites from the GSJ Hirabayashi hole, 2000.

R. H. Sibson, Crustal stress, faulting and fluid flow, Geological Society, London, Special Publications, vol.78, issue.1, pp.69-84, 1994.
DOI : 10.1144/GSL.SP.1994.078.01.07

R. H. Sibson, Thickness of the Seismic Slip Zone, Bulletin of the Seismological Society of America, vol.93, issue.3, p.995, 2003.
DOI : 10.1785/0120020061

R. H. Sibson and V. G. Toy, The habitat of fault-generated pseudotachylyte: Presence vs. absence of friction-melt, 2006.
DOI : 10.1029/170GM16

&. Sone and T. Shimamoto, Frictional resistance of faults during accelerating and decelerating earthquake slip, Nature Geoscience, vol.101, issue.10, pp.705-708, 2009.
DOI : 10.1038/ngeo637

S. R. Song, L. W. Kuo, E. C. Yeh, C. Y. Wang, J. H. Hung et al., Characteristics of the 1006 lithology, fault-­?related rocks and fault zone structures in TCDP Hole-­?A, Terrestrial, 1007 Atmospheric and Oceanic Sciences, pp.243-269, 2007.

J. Sulem, P. Lazar, and I. Vardoulakis, Thermo-poro-mechanical properties of clayey gouge and application to rapid fault shearing, International Journal for Numerical and Analytical Methods in Geomechanics, vol.91, issue.3, pp.523-540, 1010.
DOI : 10.1002/nag.584

URL : https://hal.archives-ouvertes.fr/hal-01438594

J. Sulem and V. Famin, Thermal decomposition of carbonates in fault zones: Slip-­?weakening 1012 and temperature-­?limiting effects, Journal of Geophysical Research-­Solid Earth, vol.114, pp.1013-1023, 2009.

Y. Takahashi, K-Ar ages of the granitic rocks in Awaji Island. With an emphasis on timing of mylonitization., JOURNAL OF MINERALOGY, PETROLOGY AND ECONOMIC GEOLOGY, vol.87, issue.7, pp.291-299, 1992.
DOI : 10.2465/ganko.87.291

T. Takeshita and K. Yagi, Paleostress orientation from 3-­?D orientation distribution of Boullier The fault zone geology 31, 2001.

W. Tanikawa and T. Shimamoto, Frictional and transport properties of the Chelungpu fault 1041 from shallow borehole data and their correlation with seismic behavior during the, 1042.

W. Tanikawa, M. Sakaguchi, T. Hirono, W. Lin, W. Soh et al., Transport properties 1045 and dynamic processes in a fault zone from samples recovered from TCDP Hole, p.1046, 2009.

S. Uehara and T. Shimamoto, Gas permeability evolution of cataclasite and fault gouge in 1049 triaxial compression and implications for changes in fault-­?zone permeability structure 1050 through the earthquake cycle, Tectonophysics, vol.378, pp.3-4, 2004.

K. Ujiie, Fault rock analysis of the northern part of the Chelungpu Fault and its relation to 1052 earthquake faulting of the 1999 Chi-­?Chi earthquake, Taiwan. The Island Arc, pp.2-11, 2005.

J. H. Wang, J. H. Hung, and J. J. Dong, Seismic velocities, density, porosity, and permeability measured at a deep hole penetrating the Chelungpu fault in central Taiwan, Journal of Asian Earth Sciences, vol.36, issue.2-3, pp.135-145, 1055.
DOI : 10.1016/j.jseaes.2009.01.010

C. A. Wibberley and T. Shimamoto, Internal structure and permeability of major strike-slip fault zones: the Median Tectonic Line in Mie Prefecture, Southwest Japan, Journal of Structural Geology, vol.25, issue.1, pp.59-78, 2003.
DOI : 10.1016/S0191-8141(02)00014-7

URL : https://hal.archives-ouvertes.fr/hal-00407057

C. A. Wibberley and T. Shimamoto, Earthquake slip weakening and asperities explained by Boullier The fault zone geology 32, 2005.

M. D. Zoback, S. Hickman, and W. E. Ellsworth, The role of fault zone drilling, p.1078, 2007.