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Kaneko, Y., Shearer, P. M., (2014), "Seismic source spectra and estimated stress drop derived from cohesive-zone models of circular subshear rupture", Geophysical Journal International, 197, 2: pg: 1002--1015, (DOI: 10.1093/gji/ggu030). Cited by:
Tago, J., Cruz-Atienza, V. M., Virieux, J., Etienne, V., Sánchez-Sesma, F. J., (2012), "A 3D hp-adaptive discontinuous Galerkin method for modeling earthquake dynamics", Journal of Geophysical Research: Solid Earth, 117, B9: pg: B09312, (DOI: 10.1029/2012JB009313). Cited by:
Mercerat, E. D., Nolet, G., (2012), "Comparison of ray- and adjoint-based sensitivity kernels for body-wave seismic tomography", Geophysical Research Letters, 39, 12: pg: L12301, (DOI: 10.1029/2012GL052002). Cited by:
Meng, L., Ampuero, J-P, Sladen, A., Rendon, H., (2012), "High-resolution backprojection at regional distance: Application to the Haiti M 7.0 earthquake and comparisons with finite source studies", Journal of Geophysical Research: Solid Earth, 117, B4: pg: B04313, (DOI: 10.1029/2011JB008702). Cited by:
Larmat, C. S., Guyer, R. A., Johnson, P. A., (2009), "Tremor source location using time reversal: Selecting the appropriate imaging field", Geophysical Research Letters, 36, 22: pg: L22304, (DOI: 10.1029/2009GL040099). Cited by:
Blitz, C., Lognonné, P., Komatitsch, D., Baratoux, D., (2009), "Effects of ejecta accumulation on the crater population of asteroid 433 Eros", Journal of Geophysical Research, 114, E6: pg: E06006, (DOI: 10.1029/2008JE003229). Cited by:
Larmat, C., Tromp, J., Liu, Q., Montagner, J-P, (2008), "Time reversal location of glacial earthquakes", Journal of Geophysical Research, 113, B9: pg: B09314, (DOI: 10.1029/2008JB005607). Cited by:
Kaneko, Y., Lapusta, N., Ampuero, J-P, (2008), "Spectral element modeling of spontaneous earthquake rupture on rate and state faults: Effect of velocity-strengthening friction at shallow depths", Journal of Geophysical Research, 113, B9: (DOI: 10.1029/2007JB005553). Cited by:
Savage, B., Helmberger, D. V., (2004), "Complex Rayleigh waves resulting from deep sedimentary basins", Earth and Planetary Science Letters, 218, 1-2: pg: 229--239, (DOI: 10.1016/S0012-821X(03)00570-3). Cited by:
Nagaso, M., Moysan, J., Benjeddou, S., Massacret, N., Ploix, M. A., Komatitsch, D., Lhuillier, C., (2016), "Ultrasonic thermometry simulation in a random fluctuating medium: Evidence of the acoustic signature of a one-percent temperature difference", Ultrasonics, 68: pg: 61--70, (DOI: 10.1016/j.ultras.2016.02.011). Cited by:
Kaneko, Y., Lapusta, N., (2010), "Supershear transition due to a free surface in 3-D simulations of spontaneous dynamic rupture on vertical strike-slip faults", Tectonophysics, 493, 3-4: pg: 272--284, (DOI: 10.1016/j.tecto.2010.06.015). Cited by:
To, A., Fukao, Y., Tsuboi, S., (2011), "Evidence for a thick and localized ultra low shear velocity zone at the base of the mantle beneath the central Pacific", Physics of the Earth and Planetary Interiors, 184, 3-4: pg: 119--133, (DOI: 10.1016/j.pepi.2010.10.015). Cited by:
Dupros, F., De Martin, F., Foerster, E., Komatitsch, D., Roman, J., (2010), "High-performance finite-element simulations of seismic wave propagation in three-dimensional nonlinear inelastic geological media", Parallel Computing, 36, 5-6: pg: 308--325, (DOI: 10.1016/j.parco.2009.12.011). Cited by:
Lee, S-J, Liu, Q., Tromp, J., Komatitsch, D., Liang, W-T, Huang, B-S, (2014), "Toward real-time regional earthquake simulation II: Real-time Online earthquake Simulation (ROS) of Taiwan earthquakes", Journal of Asian Earth Sciences, 87: pg: 56--68, (DOI: 10.1016/j.jseaes.2014.02.009). Cited by:
Komatitsch, D., Erlebacher, G., Göddeke, D., Michéa, D., (2010), "High-order finite-element seismic wave propagation modeling with MPI on a large GPU cluster", Journal of Computational Physics, 229, 20: pg: 7692--7714, (DOI: 10.1016/j.jcp.2010.06.024). Cited by:
Stich, D., Morelli, A., (2007), "Reflection of seismic surface waves at the northern Apennines", Earth and Planetary Science Letters, 259, 1-2: pg: 149--158, (DOI: 10.1016/j.epsl.2007.04.036). Cited by:
Komatitsch, D., (2011), "Fluid-solid coupling on a cluster of GPU graphics cards for seismic wave propagation", Comptes Rendus Mécanique, 339, 2-3: pg: 125--135, (DOI: 10.1016/j.crme.2010.11.007). Cited by:
Basini, P., Nissen-Meyer, T., Boschi, L., Casarotti, E., Verbeke, J., Schenk, O., Giardini, D., (2013), "The influence of nonuniform ambient noise on crustal tomography in Europe", Geochemistry, Geophysics, Geosystems, 14, 5: pg: 1471--1492, (DOI: 10.1002/ggge.20081). Cited by:
Matharu, G., Bostock, M. G., Christensen, N. I., Tromp, J., (2014), "Crustal anisotropy in a subduction zone forearc: Northern Cascadia", Journal of Geophysical Research: Solid Earth, 119, 9: pg: 7058--7078, (DOI: 10.1002/2014JB011321). Cited by:
Tong, P., Komatitsch, D., Tseng, T-L, Hung, S-H, Chen, C-W, Basini, P., Liu, Q., (2014), "A 3-D spectral-element and frequency-wave number hybrid method for high-resolution seismic array imaging", Geophysical Research Letters, 41, 20: pg: 7025--7034, (DOI: 10.1002/2014GL061644). Cited by:
Chen, M., Huang, H., Yao, H., Hilst, R., Niu, F., (2014), "Low wave speed zones in the crust beneath SE Tibet revealed by ambient noise adjoint tomography", Geophysical Research Letters, 41, 2: pg: 334--340, (DOI: 10.1002/2013GL058476). Cited by:
Casarotti, E., Stupazzini, M., Lee, S. J., Komatitsch, D., Piersanti, A., Tromp, J., Brewer, M. L.and Marcum, D. (2008), "Proceedings of the 16th International Meshing Roundtable", CUBIT and Seismic Wave Propagation Based Upon the Spectral-Element Method: An Advanced Unstructured Mesher for Complex 3D Geological Media, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 579--597, 978-3-540-75103-8, (DOI: 10.1007/978-3-540-75103-8_32). Cited by:
Komatitsch, D., Labarta, J., Michea, D., Palma, J. M. L. M.and Amestoy, P. R.and Dayd, M.and Mattoso, M.and Lopes, J. ä o. C. (2008), "High Performance Computing for Computational Science -- VECPAR 2008: 8th International Conference, Toulouse, France, June 24-27, 2008. Revised Selected Papers", A Simulation of Seismic Wave Propagation at High Resolution in the Inner Core of the Earth on 2166 Processors of MareNostrum, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 364--377, 978-3-540-92859-1, (DOI: 10.1007/978-3-540-92859-1_33). Cited by:
Tsuboi, S., Resch, M.and Roller, S.and Lammers, P.and Furui, T.and Galle, M.and Bez, W. (2008), "High Performance Computing on Vector Systems 2007", Sustained Performance of 10+ Teraflop/s in Simulation on Seismic Waves Using 507 Nodes of the Earth Simulator, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 3--14, 978-3-540-74384-2, (DOI: 10.1007/978-3-540-74384-2_1). Cited by:
Dhanya, J., Gade, M., Raghukanth, S. T. G., (2016), "Ground motion estimation during 25th April 2015 Nepal earthquake", Acta Geodaetica et Geophysica, 52: pg: 69--93, (DOI: 10.1007/s40328-016-0170-8). Cited by:
Alexis Bottero, Paul Cristini, Komatitsch, Dimitri, (2016), "An axisymmetric time-domain spectral-element method for full-wave simulations: Application to ocean acoustics", The Journal of the Acoustical Society of America, 140, 5: pg: 3520, (DOI: 10.1121/1.4965964). Cited by:
Rietmann, M., Grote, M., Peter, D., Schenk, O., (2016), "Newmark local time stepping on high-performance computing architectures", Journal of Computational Physics, 334: pg: 308--326, (DOI: 10.1016/j.jcp.2016.11.012). Cited by:
Komatitsch, D., Vilotte, J-P, Tromp, J., Ampuero, J-P, Bai, K., Basini, P., Blitz, C., Bozdag, E., Casarotti, E., Charles, J., Chen, M., Galvez, P., Goddeke, D., Hjorleifsdottir, V., Labarta, J., Le Goff, N., Le Loher, P., Lefebvre, M., Liu, Q., Luo, Y., Maggi, A., Magnoni, F., Martin, R., Matzen, R., McRitchie, D., Meschede, M., Messmer, P., Michea, D., Nadh Somala, S., Nissen-Meyer, T., Peter, D., Rietmann, M., Andrade, E. S., Savage, B., Schuberth, B., Sieminski, A., Strand, L., Tape, C., Xie, Z., Zhu, H., (2012), "SPECFEM3D Cartesian v2.0.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Maufroy, E., Chaljub, E., Theodoulidis, N. P., Roumelioti, Z., Hollender, F., Bard, P-Y, Martin, F. de, Guyonnet-Benaize, C., Margerin, L., (2017), "Source-Related Variability of Site Response in the Mygdonian Basin (Greece) from Accelerometric Recordings and 3D Numerical Simulations", Bulletin of the Seismological Society of America, 107, 2: pg: 787--808, (DOI: 10.1785/0120160107). Cited by:
Gade, M., Raghukanth, S. T. G., (2017), "Simulation of strong ground motion for a MW 8.5 hypothetical earthquake in central seismic gap region, Himalaya", Bulletin of Earthquake Engineering, 15, 10: pg: 4039--4065, (DOI: 10.1007/s10518-017-0146-2). Cited by:
Xie, Z., Matzen, R., Cristini, P., Komatitsch, D., Martin, R., (2016), "A perfectly matched layer for fluid-solid problems: Application to ocean-acoustics simulations with solid ocean bottoms", jasa, 140, 1: pg: 165--175, (DOI: 10.1121/1.4954736). Cited by:
Chaljub, E., Komatitsch, D., Vilotte, J. P., Capdeville, Y., Valette, B., Festa, G., Wu, R-Sand Maupin, V. rie (2007), "Advances in wave propagation in heterogeneous media", Spectral Element Analysis in Seismology, Advances in Geophysics, Elsevier - Academic Press, London, UK, 48: pg: 365--419, . Cited by:
Komatitsch, D., Liu, Q., Tromp, J., Suss, P., Stidham, C., Shaw, J. H., (2004), "Simulations of Ground Motion in the Los Angeles Basin based upon the Spectral-Element Method", Bulletin of the Seismological Society of America, 94, 1: pg: 187--206, (DOI: 10.1785/0120030077). Cited by:
Lloyd, S., Jeong, C., Gharti, H. N., Tromp, J., (2017), "Computation of acoustic wave responses due to moving underwater acoustic sources in complex underwater environments using a spectral element method", The Journal of the Acoustical Society of America, 141, 5: pg: 3531, (DOI: 10.1121/1.4987453). Cited by:
Lin, C-P, Lin, C-H, Chang, Y-C, Chien, C-J, (2017), "Quantitative Interpretation of Surface Wave Testing for Assessment of Ground Improvement by Jet Grouting", Grouting 2017, : (DOI: 10.1061/9780784480809.008). Cited by:
Wang, X., Cai, M., M Hudyma & Y Potvin (2017), "Underground Mining Technology", Numerical analysis of ground motion in a South African mine using SPECFEM3D, Australian Centre for Geomechanics, Perth: pg: 255--268, 978-0-9924810-7-0, (DOI: 10.36487/ACG_rep/1710_20_Wang). Cited by:
Baron, J., Morelli, A., (2017), "Full-waveform seismic tomography of the Vrancea, Romania, subduction region", Physics of the Earth and Planetary Interiors, 273: pg: 36--49, (DOI: 10.1016/j.pepi.2017.10.009). Cited by:
Nagaso, M., Komatitsch, D., Moysan, J., Lhuillier, C., Lyoussi, A., (2018), "Wave propagation simulation in the upper core of sodium-cooled fast reactors using a spectral-element method for heterogeneous media", EPJ Web of Conferences, 170: pg: 03006, (DOI: 10.1051/epjconf/201817003006). Cited by:
Paap, B., Kraaijpoel, D., Bakker, M., Gharti, H. N., (2018), "Wave propagation modelling of induced earthquakes at the Groningen gas production site", Geophysical Journal International, 214, 3: pg: 1947--1960, (DOI: 10.1093/gji/ggy225). Cited by:
Wang, K., Yang, Y., Basini, P., Tong, P., Tape, C., Liu, Q., (2018), "Refined crustal and uppermost mantle structure of southern California by ambient noise adjoint tomography", Geophysical Journal International, : (DOI: 10.1093/gji/ggy312). Cited by:
Vaaland, U., Gharti, H. N., Tromp, J., (2019), "Simulations of seismic wave propagation using a spectral-element method in a Lagrangian framework with logarithmic strain", Geophysical Journal International, 216, 3: pg: 2148--2157, (DOI: 10.1093/gji/ggy546). Cited by:
Dhabu, A. C., Raghukanth, S. T. G., Sundararajan, N.and Eshagh, M.and Saibi, H.and Meghraoui, M.and Al-Garni, M.and Giroux, B. (2019), "Influence of Himalayan Topography on Earthquake Strong Ground Motions: Proceedings of the 1st Springer Conference of the Arabian Journal of Geosciences (CAJG-1), Tunisia 2018", Springer International Publishing, Cham: pg: 175--177, 978-3-030-01656-2, (DOI: 10.1007/978-3-030-01656-2_39). Cited by:
Fokker, E.B., (2019), "Seismic acquisition using Radar Interferometry", Utrecht University: . Cited by:
Meijde, M. van der, Ashrafuzzaman, M., Kerle, N., Khan, S., Werff, H. van der, (2020), "The Influence of Surface Topography on the Weak Ground Shaking in Kathmandu Valley during the 2015 Gorkha Earthquake, Nepal", Sensors, 20, 3: pg: 678, (DOI: 10.3390/s20030678). Cited by:
Lamberts, Pim, (2019), "Two approaches to single-station detection and removal of ground roll from seismic reflection measurements by three component polarization analysis", Utrecht University: . Cited by:
Chodacki, J., (2020), "Simulation of ground motion in a polish coal mine using spectral-element method", Journal of Seismology, : (DOI: 10.1007/s10950-020-09911-w). Cited by:
Tan, J., Langston, C. A., Ni, S., (2020), "Shallow Shear-Wave Velocity Structure in Oklahoma Based on the Joint Inversion of Ambient Noise Dispersion and Teleseismic P-Wave Receiver Functions", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120200246). Cited by:
Wang, X-C, Wang, J-T, Zhang, L., Li, S., Zhang, C-H, (2021), "A Multidimension Source Model for Generating Broadband Ground Motions with Deterministic 3D Numerical Simulations", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120200221). Cited by:
Latecki, H., Molinari, I., Stipcevic, J., (2021), "3D physics-based seismic shaking scenarios for city of Zagreb, Capital of Croatia", Bulletin of Earthquake Engineering, : (DOI: 10.1007/s10518-021-01227-5). Cited by:
Masfara, L. O. M., Weemstra, C., Cullison, T., (2021), "Efficient Probabilistic Inversion of Induced Earthquake Parameters in 3D Heterogeneous Media", European Association of Geoscientists & Engineers, 2021, 1: pg: 1--5, . Cited by:
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