MICROBLOCK ROTATIONS IN SULAWESI, INDONESIA Peltzer, G., and F. Saucier (1996), Present-day kinematics of Asia <strong>de</strong>rived from geologic fault rates, Journal of Geophysical Research-Solid Earth, 101, 27943-27956. Prawirodirdjo, L., et al. (1997), Geo<strong>de</strong>tic observations of interseismic strain segmentation at the Sumatra subduction zone, Geophys. Res. Lett., 24, 2601-2604. Prawirodirdjo, L., Y. Bock, J. F. Genrich, S. S. O. Punto<strong>de</strong>wo, J. Rais, C. Subarya, and S. Sutisna, One century of tectonic <strong>de</strong>formation along the Sumatran fault from triangulation and GPS surveys, J. Geophys. Res., 105, 28,343– 28,361, 2000. Press, W. H., B. P. Flannery, S. A. Teukolsky, and W. T. Vetterling (1989), Numerical Recipes, Cambridge Univ. Press, New York. Pubellier, M., and F. Ego (2002), Anatomy of an escape tectonic zone: Western Irian Jaya (Indonesia), Tectonics, 21, art. no.-1019. Pubellier, M., et al. (1996), Escape tectonics during and after collision in western Irian Jaya, Indonesia, Eos, Transactions, American Geophysical Union, 77, 654. Punto<strong>de</strong>wo, S. S. O., et al. (1994), Gps Measurements of Crustal Deformation within the Pacific-Australia Plate Boundary Zone in Irian-Jaya, Indonesia, Tectonophysics, 237, 141-153. Rangin, C. (1989), The Sulu Sea, a Back-Arc Basin Setting within a Neogene Collision Zone, Tectonophysics, 161, 119-141. Rangin, C., et al. (1999), Plate convergence measured by GPS across the Sundaland/Philippine Sea Plate <strong>de</strong>formed boundary; the Philippines and eastern Indonesia, Geophysical Journal International, 139, 296-316. Savage, J. C. (1983), A dislocation mo<strong>de</strong>l of strain accumulation and release at a subduction zone, J. Geophys. Res., 88, 4984–4996. Savage, J. C., and R. O. Burford (1973), Geo<strong>de</strong>tic <strong>de</strong>termination of relative plate motion in central California, J. Geophys. Res., 78, 832-845. Scherneck, H.-G. (1991), A parametrized solid Earth ti<strong>de</strong> mo<strong>de</strong> and ocean loading effects for global geo<strong>de</strong>tic base-line measurements, Geophysical Journal International, 106, 677-694. Silver, E. A., et al. (1983), Ophiolite Emplacement by Collision between the Sula Platform and the Sulawesi Island-Arc, Indonesia, Journal of Geophysical Research, 88, 9419-9435. Silver, E. A., et al. (1983), Collision, Rotation, and the Initiation of Subduction in the Evolution of Sulawesi, Indonesia, Journal of Geophysical Research, 88, 9407- 9418. Silver, E. A., and J. C. Moore (1978), Molucca Sea Collision Zone, Indonesia, Journal of Geophysical Research, 83, 1681-1691. Simons, W. J. F., et al. (1999), Observing plate motions in Southeast Asia; geo<strong>de</strong>tic results of the 16 GEODYSSEA Project, Geophys. Res. Lett., 26, 2081- 2084. Simons, W. J. F., et al. (submitted), A Deca<strong>de</strong> of GPS Measurements in S.E. Asia: (Re)Defining Sundaland and it's Boundaries, J. Geophys. Res. Simons, W. J. F., et al. (2000), Geodynamics of S.E. Asia; first results of the Sulawesi 1998 GPS campaign; IAG general assembly, IAG general assembly, 121, 271-277. Socquet, A., et al. (2006), India and Sunda Plates motion and <strong>de</strong>formation along their boundary in Myanmar <strong>de</strong>termined by GPS, Journal of Geophysical Research, in press. Soehaimi, A., et al. (2006), Geotektonik dan Kegempaan Lajur patahan aktif Palu-Koro dan dinamika Gempabumi Palolo 24 Januari 2005. Stevens, C., et al. (1999), Rapid rotations about a vertical axis in a collisional setting revealed by the Palu fault, Sulawesi, Indonesia, Geophys. Res. Lett., 26, 2677- 2680. Stevens, C. W., et al. (2002), Evi<strong>de</strong>nce for Block Rotations and Basal Shear in the World's Fastest Slipping Continental Shear Zone in NW New Guinea, in Plate Boundary Zones, S. Stein and J. Freymueller, editors, AGU Geodynamics Series 30, 87-99. Tapponnier, P., G. Peltzer, A. Y. Le Dain, R. Armijo, and P. Cobbold (1982), Propagating extrusion tectonics in Asia: New insights from simple experiments with plasticene, Geology, 10, 611 –616. Tregoning, P., F. K. Brunner, Y. Bock, S. S. O. Punto<strong>de</strong>wo, R. McCaffrey, J. F. Genrich, E. Calais, J. Rais, and C. Subarya, First geo<strong>de</strong>tic measurement of convergence across the Java Trench, Geophys. Res. Lett., 21, 2135–2138, 1994. Tregoning, P., et al. (1998), Estimation of current plate motions in Papua New Guinea from Global Positioning System observations, J. Geophys. Res., 103, 12,181– 12,203. Tregoning, P., et al. (1999), Motion of the South Bismarck Plate, Papua New Guinea, Geophys. Res. Lett., 26, 3517– 3520. Tregoning, P., et al. (2000), Present-day crustal motion in Papua New Guinea, Earth Planets Space, 52, 727– 730. Vigny, C., et al. (2002), Migration of seismicity and earthquake interactions monitored by GPS in SE Asia triple junction: Sulawesi, Indonesia, Journal of Geophysical Research-Solid Earth, 107, art. no.-2231. Wallace, L. M., et al. (2004), GPS and seismological constraints on active tectonics and arc-continent collision in Papua New Guinea: Implications for mechanics of microplate rotations in a plate boundary zone, J. Geophys. Res., 109, B05404, doi:10.1029/2003JB002481. Wallace, L. M., et al. (2005), Rapid microplate rotations and backarc rifting at the transition between collision and subduction, Geology, 33 (11), 857–860, doi: 10.1130/G21834.1
MICROBLOCK ROTATIONS IN SULAWESI, INDONESIA Walpersdorf, A., et al. (1998), GPS compared to longterm geologic motion of the north arm of Sulawesi, Earth Planet. Sci. Lett., 159, 47-55. Walpersdorf, A., et al. (1998), Determining the Sula block kinematics in the triple junction area in Indonesia by GPS, Geophysical Journal International, 135, 351-361. Walpersdorf, A., et al. (1998), Monitoring of the Palu- Koro fault (Sulawesi) by GPS, Geophys. Res. Lett., 25, 2313-2316. 17 Weissel, J. K., and R. N. An<strong>de</strong>rson (1978), Is There a Caroline Plate, Earth Planet. Sci. Lett., 41, 143-158. Wells, D. L., and K. J. Coppersmith (1994), New Empirical Relationships among Magnitu<strong>de</strong>, Rupture Length, Rupture Width, Rupture Area, and Surface Displacement, Bull. Seismol. Soc. Amer., 84, 974-1002.
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Thèse en vue d'obtenir le diplôme
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Résumé Depuis une quinzaine d'ann
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écepteur GPS devient un sismograph
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au diamètre de l'enveloppe du nuag
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Figure 3. répétabilités (c'est
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Les domaines d’application a) con
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cours desquels la faille va moins v
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- Y a-t-il un régime permanent ? o
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temps en temps (pour refaire régul
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Conclusion Pour tous les objectifs
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Les vitesses calculées sur la pér
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A cause des progrès des mesures en
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Il est probable que l'on va bientô
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attendre longtemps pour que ce mouv
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Les réseaux GPS en Birmanie et les
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Chargement élastique sur la faille
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à l'échelle de toute la Birmanie
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vitesses observées et modélisées
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Le séisme de Sumatra (Banda Aceh)
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la composante Nord-Sud du mouvement
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Propagation de la rupture et des on
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La subduction Chilienne Contexte :
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La modélisation (dislocation en "b
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Mesures dans la lacune de Coquimbo
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Là encore, nous avons montré qu
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Erosion: GPS cinématique sur un pl
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Christophe VIGNY Né le 02 Mars 196
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d) j’ai été pendant 4 ans charg
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18. Instantaneous and finite kinema
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C] Publications dans des revues à
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Michel, G., Y. Yu, S. Zhu, C. Reigb
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