Bird, P., and K. Piper, Plane-stress finite-element models of tectonic flow in southern California, Physics of the Earth and Planetary Interiors, 21, 158-175, 1980.
Brun, J.-P., D. Sokoutis, and J. van den Driessche, Analogue modeling of detachment fault systems and core complexes, Geology, 22, 319-322, 1994.
Brun, J.P., Narrow rifts versus wide rifts; inferences for the mechanics of rifting from laboratory experiments, Royal Society. Mathematical, Physical and Engineering Sciences, 357, 695-712, 1999.
Brune, J.N., and M.A. Ellis, Structural features in a brittle-ductile wax model of continental extension, Nature, 387, 67-70, 1997.
Bucky, B.P., The use of models for the study of mining problems, Technical Publication, American Institure of Mining Engineers, 425, 1931.
Burg, J.-P., D. Sokoutis, and M. Bonini, Model-inspired interpretation of seismic structures in the Central Alps: Crustal wedging and buckling at mature stage of collision, Geology, 30, 643-646, 2002.
Cadell, H.M., Experimental researches in mountain building, Transactions of the Royal Society of Edinburgh, 1, 339-343, 1889.
Chemenda, A.I., J.-P. Burg, and M. Mattauer, Evolutionary model of the Himalaya-Tibet system; geopoem based on new modelling, geological and geophysical data, Earth and Planetary Science Letters, 174, 397-409, 2000.
Chemenda, A.I., M. Mattauer, and A.N. Bokun, Continental subduction and a mechanism for exhumation of high-pressure metamorphic rocks; new modelling and field data from Oman, Earth and Planetary Science Letters, 143, 173-182, 1996.
Chemenda, A.I., M. Mattauer, J. Malavieille, and A.N. Bokun, A mechanism for syn-collisional rock exhumation and associated normal faulting; results from physical modelling, Earth and Planetary Science Letters, 132, 225-232, 1995.
Chemenda, A.I., R.K. Yang, C.H. Hsieh, and A.L. Groholsky, Evolutionary model for the Taiwan collision based on physical modelling, Tectonophysics, 274, 253-274, 1997.
Chemenda, A.I., R.K. Yang, J.F. Stephan, E.A. Konstantinovskaya, and G.M. Ivanov, New results from physical modelling of arc-continent collision in Taiwan; evolutionary model, Tectonophysics, 333, 159-178, 2001.
Cloos, E., Experimental analysis of fracture patterns, Geological Society of America Bulletin, 66, 241-256, 1955.
Cobbold, P.R., and M.P.A. Jackson, Gum rosin (colophony); a suitable material for thermomechanical modelling of the lithosphere, Tectonophysics, 210, 255-271, 1992.
Davy, P., and P.R. Cobbold, Indentation tectonics in nature and experiment. 1. Experiments scaled for gravity, Bulletin of the Geological Institutions of the University of Uppsala, New Series, 14, 129-141, 1988.
Davy, P., and P.R. Cobbold, Experiments on shortening of a 4-layer model of the continental lithosphere, Tectonophysics, 188, 1-25, 1991.
Diraison, M., P.R. Cobbold, D. Gapais, E.A. Rossello, and C. Le Corre, Cenozoic crustal thickening, wrenching and rifting in the foothills of the southernmost Andes, Tectonophysics, 316, 91-119, 2000.
Dixon, J.M., A new method of determining finite strain in models of geological structures, Tectonophysics, 24, 99-114, 1974.
Dixon, J.M., Finite strain and progressive deformation in models of diapiric structures, Tectonophysics, 28, 89-124, 1975.
Dixon, J.M., and J.M. Summers, Recent developments in centrifuge modelling of tectonic processes; equipment, model construction techniques and rheology of model materials, Journal of Structural Geology, 7, 83-102, 1985.
England, P., and D. McKenzie, A thin viscous sheet model for continental deformation, Geophysical Journal of the Royal Astronomical Society, 70, 295-321, 1982.
England, P., and D. McKenzie, Correction to; A thin viscous sheet model for continental deformation, Geophysical Journal of the Royal Astronomical Society, 73, 523-532, 1983.
Escher, B.G., and P.H. Kuenen, Experiments in connection with salt domes, Leidsche Geologische Mededeelingen, 3, 151-182, 1929.
Faccenna, C., P. Davy, J.-P. Brun, R. Funiciello, D. Giardini, M. Mattei, and T. Nalpas, The dynamics of back-arc extension; an experimental approach to the opening of the Tyrrhenian Sea, Geophysical Journal International, 126, 781-795, 1996.
Faccenna, C., F. Funiciello, D. Giardini, and P. Lucente, Episodic back-arc extension during restricted mantle convection in the Central mediterranean, Earth and Planetary Science Letters, 187, 105-116, 2001b.
Faccenna, C., D. Giardini, P. Davy, and A. Argentieri, Initiation of subduction at Atlantic-type margins; insights from laboratory experiments, Journal of Geophysical Research, 104, 2749-2766, 1999.
Faugere, E., and J.P. Brun, Modelisation experimentale de la distention continentale; Experimental models of a stretched continental crust, Comptes-Rendus des Seances de l'Academie des Sciences, Serie 2: Mecanique-Physique, Chimie, Sciences de l'Univers, Sciences de la Terre, 299, 365-370, 1984.
Funiciello, F., C. Faccenna, D. Giardini, and P. Lucente, Episodic back-arc extension during restricted mantle convection in the Central Mediterranean, Eos, TRansactions, American Geophysical Union, 81 (48), 1081-1082, 2000.
Funiciello, F., C. Faccenna, D. Giardini, G. Morra, and K. Regenauer-Lieb, Dynamics of retreating slabs: laboratory and numerical experiments, Bolletino di Geofysica Teorica ed Applicata, 42 (suppl. 1/2), 170-173, 2002.
Griffiths, R.W., R.I. Hackney, and R.D. van der Hilst, A laboratory investigation of effects of trench migration on the descent of subducted slabs, Earth and Planetary Science Letters, 133, 1-17, 1995.
Guillou-Frottier, L., J. Buttles, and P. Olson, Laboratory experiments on the structure of subducted lithosphere, Earth and Planetary Science Letters, 133, 19-34, 1995.
Hall, J., On the vertical position and convolutions of certain strata and their relationship with granite, Transactions of the Royal Society of Edinburgh, 7, 79-108, 1815.
Hatzfeld, D., J. Martinod, G. Bastet, and P. Gautier, An analog experiment for the Aegean to describe the contribution of gravitational potential energy, Journal of Geophysical Research, 102, 649-660, 1997.
Horsfield, W., An experimental approach to basement-controlled faulting, Geologie en Mijnbouw, 56, 363-370, 1977.
Houseman, G.A., and P.C. England, Finite strain calculations of continental deformation; 1, Method and general results for convergent zones, JGR. Journal of Geophysical Research, 91, 3651-3663, 1986.
Hubbert, M.K., Theory of scale models as applied to the study of geologic structures, Geological Society of America Bulletin, 48, 1459-1520, 1937.
Hubbert, M.K., Mechanical basis for certain familiar geologic structures, Geological Society of America Bulletin, 62, 355-372, 1951.
Keep, M., Models of lithospheric-scale deformation during plate collision; effects of indentor shape and lithospheric thickness, Tectonophysics, 326, 203-216, 2000.
Kincaid, C., and P. Olson, An experimental study of subduction and slab migration, Journal of Geophysical Research, 92, 13,832-13,840, 1987.
Koyi, H., Experimental modeling of role of gravity and lateral shortening in Zagros mountain belt, AAPG Bulletin, 72, 1381-1394, 1988.
Koyi, H., Analogue modelling; from a qualitative to a quantitative technique; a historical outline, Journal of Petroleum Geology, 20, 223-238, 1997.
Koyi, H.A., and A. Skelton, Centrifuge modelling of the evolution of low-angle detachment faults from high-angle normal faults, Journal of Structural Geology, 23, 1179-1185, 2001.
Krantz, R.W., Measurements of friction coefficients and cohesion for faulting and fault reactivation in laboratory models using sand and sand mixtures, Tectonophysics, 188, 203-207, 1991.
Kuenen, P.H., and L.U. de Sitter, Experimental investigation into the mechanism of folding, Leidse Geologische Mededelingen, 217-239, 1938.
Link, T.A., Experiments relating to salt-dome structures, Bulletin of the American Association of Petroleum Geologists, 14, 483-508, 1930.
Liu, S., and J.M. Dixon, Centrifuge modelling of thrust faulting; structural variation along strike in fold-thrust belts, Tectonophysics, 188, 39-62, 1991.
Mandl, G., L.N.J. de Jong, and A. Maltha, Shear zones in granular material; an experimental study of their structure and mechanical genesis, Rock Mechanics, 9, 95-144, 1977.
Martinod, J., D. Hatzfeld, J.P. Brun, P. Davy, and P. Gautier, Continental collision, gravity spreading, and kinematics of Aegea and Anatolia, Tectonics, 19, 290-299, 2000.
Nettleton, L.L., and T.A. Elkins, Geologic models made from granular materials, Transactions - American Geophysical Union, 28, 451-466, 1947.
Oertel, G., A progress report on stress, strain and fracture in clay models of geologic deformation, Geotimes, 6, 26-31, 1962.
Parker, T.J., and A.N. McDowell, Model studies of salt-dome tectonics, Bulletin of the American Association of Petroleum Geologists, 39, 2384-2470, 1955.
Ramberg, H., Natural and experimental boudinage and pinch-and-swell structures, Journal of Geology, 63, 512-526, 1955.
Ramberg, H., Model experimentation of the effect of gravity on tectonic processes, The Geophysical Journal of the Royal Astronomical Society, 14, 307-329, 1967.
Ramberg, H., Model studies in relation to intrusion of plutonic bodies, in Mechanism of igneous intrusion, edited by G. Newall, and N. Rast, pp. 261-286, 1970.
Ratschbacher, L., O. Merle, P. Davy, and P. Cobbold, Lateral extrusion in the Eastern Alps; Part 1, Boundary conditions and experiments scaled for gravity, Tectonics, 10, 245-256, 1991.
Richard, P., Experiments on faulting in a two-layered cover sequence overlying a reactivated basement fault with oblique-slip, Journal of Structural Geology, 13, 459-469, 1991.
Rossetti, F., C. Faccenna, G. Ranalli, and F. Storti, Convergence rate-dependent growth of experimental viscous orogenic wedges, Earth and Planetary Science Letters, 178, 367-372, 2000.
Rossetti, F., G. Ranalli, and C. Faccenna, Rheological properties of paraffin as an analogue material for viscous crustal deformation, Journal of Structural Geology, 21, 413-417, 1999.
Schardt, H., Geological Studies in the Pays-D'Enhant Vaudois, Bull. de le Soc. Vaudois des Sci. Nat., xx, 143-146, 1884.
Schellart, W.P., Shear test results for cohesion and friction coefficients for different granular materials: scaling implications for their usage in analogue modelling, Tectonophysics, 324, 1-16, 2000.
Schellart, W.P., G.S. Lister, and M.W. Jessell, Analogue modeling of arc and back-arc deformation in the New Hebrides arc and North Fiji Basin, Geology, 30, 311-314, 2002a.
Schellart, W.P., G.S. Lister, and M.W. Jessell, Some experimental insights into arc formation and back-arc extension, Bollettino di Geofisica Teorica ed Applicata, 42 (suppl. 1/2), 85-91, 2002b.
Shemenda, A.I., Similarity criteria in mechanical modeling of tectonic processes, Soviet Geology and Geophysics, 24, 8-16, 1983.
Shemenda, A.I., Horizontal lithosphere compression and subduction; constraints provided by physical modeling, Journal of Geophysical Research, 97, 11097-11116, 1992.
Shemenda, A.I., Subduction of the lithosphere and back arc dynamics; insights from physical modeling, Journal of Geophysical Research, 98, 16167-16185, 1993.
Shemenda, A.I., Subduction; insights from physical modeling, 215 pp., Kluwer Academic Publishers, Dordrecht, 1994.
Shemenda, A.I., and A.L. Grocholsky, Physical modelling of lithosphere subduction in collision zones, Tectonophysics, 216, 273-290, 1992.
Shemenda, A.I., and A.L. Grocholsky, Physical modeling of slow seafloor spreading, Journal of Geophysical Research, 99, 9137-9153, 1994.
Talbot, C.J., Inclined and asymmetric upward-moving gravity structures, Tectonophysics, 42, 159-181, 1977.
Tapponnier, R., G. Peltzer, A.Y. Le Dain, R. Armijo, and P. Cobbold, Propagating extrusion tectonics in Asia; new insights from simple experiments with plasticine, Geology, 10, 611-616, 1982.