2007:
Chaussard, E., Déformation active, vitesse de faille et relations entre mesures géologiques et géodésiques au Tibet, Master 1 Terre-Environnement-Recherche, Université de Montpellier 2, 2007.
Gibert, G., Modélisation 3D de la flexure d'une plaque lithosphérique dans une zone de convergence oblique et implication sur la remontée des roches métamorphiques de ultra haute pression, Master-2R Sciences de la Terre, Université de Grenoble, 2007.
He, J., and S. Lu, 2007, Lower friction of the Xianshuihe-Xiaojiang fault system and its effect on active deformation around the southeastern Tibetan margin. Terra Nova, doi:10.1111/j. 1365-3121.2007.00735.x.).
Savage, M., Tommasi, A., Ellis, S.,
Chéry, J., Modeling
strain and anisotropy along the Alpine fault, South
2006:
Bonnardot, M.-A., Etude géodynamique de la zone de subduction Tonga-Kermadec par une approche de modélisation numérique 3D et de sismotectonique, Thèse Université de Nice-Sophia-Antipolis, 2006.
Godard, V., Lavé, J. and Cattin,
R., Numerical modeling of erosion processes in the Himalayas of Nepal, effects
of spatial variation of rock
strength and precipitations, Geological Society London Special Publication,
2006.
Hetényi, H., Cattin, R., Vergne, J. and Nábelek, J.L., The Effective Elastic Thickness of the India Plate from Receiver Function Imaging, Gravity Anomalies and Thermo-mechanical Modelling, Geophys. J. Int., 167, 1106-1118, doi:10.1111/j.1365-246X.2006.03198.x, 2006.
Provost, A.-S.
and J. Chéry, Relation
between effective friction and fault slip rate across the
Vernant,
Ph. and J. Chéry, Low fault friction in
Vernant,
Ph. and J. Chéry, Mechanical modelling of oblique
convergence in the Zagros,
2005:
Cattin, R., Doubre, C., de Chabalier, JB, King, G., Vigny, C., Avouac, JP, Ruegg, JC, Numerical modelling of quaternary deformation and post-rifting displacement in the Asal-Ghoubbet rift (Djibouti, Africa), 239, 352-367, Earth Planet. Sc. Lett., 2005.
2004:
Berger, A., Propagation de la rupture crustale de l'axe d'un point chaud à la ride océanique : exemple du nord de l'Islande, Thèse Université de Savoie, 2004.
Berger, A., Jouanne, F., R. Hassani and J.-L. Mugnier, Modelling the spatial
distribution of present day deformation in
Chéry J.,
M.D. Zoback, S. Hickman,
A mechanical model of the
Godard, V., Cattin, R. and Lavé, J., Numerical modeling of mountain building: interplay between erosion law and crustal rheology, Geophys. Res. Lett., 31, doi:10.1029/2004GL021006, 2004.
Hetenyi Gyorgy, Seismological
imaging and numerical modeling of the flexural gangetic foreland basin (
2003:
Bonnardot, M.-A., Modélisation de la genèse des Andes d'Equateur : des accrétions océaniques à la déformation continentale (80 Ma - 0 Ma), DEA Dynamique de la Lithosphère, Université de Savoie, 2003.
Godard V., Modélisation de l'évolution d'une chaîne de montagne soumise à de la tectonique active et à l'érosion fluviale : Application à l'Himalaya central, DEA Physique de la Terre et Géodynamique ENS, 2003.
Provost, A.-S., J. Chéry and R. Hassani, 3D mechanical modeling
of the GPS velocity field along the north Anatolian fault, Earth Planet. Sci. Lett., 209, 361-377, 2003.
Vernant, Ph., Cinématique actuelle et dynamique de l’Iran: GPS et
modélisation numérique, Thèse, Université de Montpellier II, 2003.
2002:
Tang, J.C., A.I. Chemenda, J. Chery, S.
Lallemand and R. Hassani, Compressional subduction regime and arc-continent
collision: numerical modeling, Geol.
Soc. Am. Bull. Spec. Pub., 358, 177-186, 2002.
2001:
Berger, A., Etude de la déformation de l'Himalaye du Népal en période intersismique : apport de la modélisation par éléments finis". DEA Dynamique de la Lithosphère, Université de Savoie, 2001.
Cattin, R., Martelet,
G., Henry, P., Avouac, J.P., Diament,
M. and Shakya, T.R., Gravity anomalies, crustal structure and thermo-mechanical support of the
Himalayas of Central Nepal, Geophys. J. Int., 147,
381-392, 2001.
Chemenda, A I; Hurpin, D; Tang, J C; Stephan, J F; Buffet, G., Impact of
arc-continent collision on the conditions of burial and exhumation of UHP/LT
rocks; ex sperimental and numerical modelling, Tectonophysics, 342, 137-161, 2001.
Chéry J., Core complexes mechanics: from
Chéry J., M.D. Zoback and R. Hassani, Rheology, strain and
stress of the
Tommasi, A. Vauchez, A. Continental rifting parallel to collisional belts: An effect of the mechanical anisotropy
of the lithospheric mantle. Earth and Planetary
Science Letters, 185: 199-210, 2001.
Vergne J., R. Cattin and J.P. Avouac,On the use of dislocations
to model interseismic strain and stress build-up at intracontinental thrust faults, Geophys.
J. Int., 147, 155-162, 2001.
Holtzman, B.K. Gauging stress from deformed chromite pods in the
2000:
Berger A., Etude de la déformation de l’Himalaya du Népal en
période intersismique : apport de la
modélisation par éléments finis, diplôme de DEA, Université de Savoie, 33p., 2000.
Cattin R. and J.P.
Avouac, Modeling mountain building and the seismic cycle in the Himalaya of
Nepal, J. Geophys. Res., 105, 13389-13407, 2000.
Lesne, O., E. Calais, J. Deverchère, R.
Hassani and J. Chery, Dynamics of intracontinentl extension in the North Baikal
rift from two-dimensional numerical deformation modeling, J. Geophys. Res., 105, 21727-21744, 2000.
Tang, J.C. and A.I. Chemenda, Numerical
modeling of arc-continent collision: Application to
1999:
Cattin et al., Effects of superficial
layers on coseismic displacements for a dip-slip fault and geophysical
implications, Geophys. J. Int., 137, 149-158, 1999.
Chéry J. and M.D. Zoback, 2-dimensional
modeling of a
Lesne, O., Dynamique de
l'extension intracontinentale dans le rift Baikal (Siberie) : Apport de mesures GPS et modèles numériques, These, Université Paris 6, 1999.
1998:
Bellino D., Hassani R., D. Jongmans, A.
Montjoie, Numerical modeling of the southern Apennines formation, Rapport
FINA/971, 1998.
Huc M., R. Hassani, and J. Chéry, Large
earthquake nucleation associated with stress exchange between middle and upper
crust, Geophys. Res. Lett., 25, 551-554, 1998.
Niño F., H. Philip, and J. Chéry, The role
of bed-parallel slip in the formation of blind thrust faults, J. Struct. Geol., 20, 503-516, 1998.
Niño F., J. Chéry, and J.P. Gratier,
Mechanical modeling of compressional basins: Origin and interaction of faults,
erosion, and subsidence in the
Taverna J., Modélisation mécanique du
plissement de la lithosphère, Thèse de
Doctorat, Université de Grenoble, 170 pp., 1998.
1997:
Bellino D., Hassani R., D. Jongmans, A.
Montjoie, Modeling of the southern Apennines formation at the upper crustal
scale, Rapport FINA/963, 1997.
Bernard et al., The Ms=6.2, June 15, 1995 Aigion earthquake (Greece): evidence for low angle normal faulting in the Corinth rift, Journal of Seismology, 1, 131-150, 1997.
Cattin, R., H.
Lyon-Caen, and J. Chéry, Quantification of interplate coupling in subduction
zones and forearc topography, Geophys. Res. Lett., 24, 1563-1566, 1997
Hassani, R., D. Jongmans, and J. Chéry,
Study of plate deformation and stress in subduction processes using two-dimensional
numerical models, J. Geophys. Res., 102, 17951-17965, 1997.
1996:
Hassani R., and Chéry, J., Anelasticity
explains topography associated with Basin and Range normal faulting,Geology, 24, 1095-1098, 1996.
1995:
Hassani R., D. Jongmans, J. Krings, A. Montjoie, Modelisation
des processus de formation des Apennins, Rapport FINA/952, 1995.