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Colombi, Andrea, Zaccherini, Rachele, Aguzzi, Giulia, Palermo, Antonio, Chatzi, Eleni, (2020), "Mitigation of seismic waves: Metabarriers and metafoundations bench tested", Journal of Sound and Vibration, 485: pg: 115537, (DOI: 10.1016/j.jsv.2020.115537). Cited by:
Solymosi, Bence, Favretto-Cristini, Nathalie, Monteiller, Vadim, Cristini, Paul, Ursin, Bjørn, Komatitsch, Dimitri, (2020), "Seismic surveying and imaging at the laboratory scale: A framework to cross-validate experiments and simulations for a salt-body environment", Geophysics, 85, 3: pg: T123-T139, Mar, (DOI: 10.1190/geo2019-0313.1). Cited by:
Sugiyama, Daisuke, Tsuboi, Seiji, Yukutake, Yohei, (2021), "Application of deep learning-based neural networks using theoretical seismograms as training data for locating earthquakes in the Hakone volcanic region, Japan", Earth, Planets and Space, 73, 1: pg: 135, Jun, (DOI: 10.1186/s40623-021-01461-w). Cited by:
He, Jiaze, Rao, Jing, Fleming, Jacob D, Gharti, Hom Nath, Nguyen, Luan T, Morrison, Gaines, (2021), "Numerical ultrasonic full waveform inversion (FWI) for complex structures in coupled 2D solid/fluid media", Smart Materials and Structures, IOP Publishing, 30, 8: pg: 085044, jul, (DOI: 10.1088/1361-665X/ac0f44). Cited by:
Harms, Jan, (2015), "Terrestrial Gravity Fluctuations", Living Reviews in Relativity, 18, 1: pg: 3, Dec, (DOI: 10.1007/lrr-2015-3). Cited by:
Trapp, Maximilian, Bogoclu, Can, Nestorović, Tamara, Roos, Dirk, (2019), "Intelligent optimization and machine learning algorithms for structural anomaly detection using seismic signals", Mechanical Systems and Signal Processing, 133: pg: 106250, (DOI: 10.1016/j.ymssp.2019.106250). Cited by:
Jian Cao, Jing-Bo Chen, (2018), "A parameter-modified method for implementing surface topography in elastic-wave finite-difference modeling", GEOPHYSICS, 83, 6: pg: T313-T332, (DOI: 10.1190/geo2018-0098.1). Cited by:
BibTex | EndNote|Resources cited:[1][2]
Zhang, Heng, Sun, Yao-Chong, Ren, Hengxin, Ma, Bowen, Zhang, Wei, Huang, Qinghua, Chen, Xiaofei, (2022), "2D electromagnetic simulation for ground penetrating radar with a topographic ground surface by the curvilinear collocated-grid finite-difference method combined with equivalent field method", Journal of Applied Geophysics, 206: pg: 104812, (DOI: 10.1016/j.jappgeo.2022.104812). Cited by:
SAXENA, Swasti, MOTAMED, Ramin, RYAN, Keri, (2022), "CONTRASTING SUBSURFACE MODELS FOR PHYSICS-BASED REGIONAL-SCALE NUMERICAL SIMULATIONS IN JAPAN USING A RIGOROUS VALIDATION SCHEME", 日本地震工学会論文集, 22, 6: pg: 6_1-6_21, (DOI: 10.5610/jaee.22.6_1). Cited by:
Chaplain, Gregory J., De Ponti, Jacopo M., Colombi, Andrea, Fuentes-Dominguez, Rafael, Dryburg, Paul, Pieris, Don, Smith, Richard J., Clare, Adam, Clark, Matt, Craster, Richard V., (2020), "Tailored elastic surface to body wave Umklapp conversion", Nature Communications, 11, 1: pg: 3267, Jun, (DOI: 10.1038/s41467-020-17021-x). Cited by:
Rosenkrantz, Eric, Bottero, Alexis, Komatitsch, Dimitri, Monteiller, Vadim, (2019), "A flexible numerical approach for non-destructive ultrasonic testing based on a time-domain spectral-element method: Ultrasonic modeling of Lamb waves in immersed defective structures and of bulk waves in damaged anisotropic materials", NDT & E International, 101: pg: 72-86, (DOI: 10.1016/j.ndteint.2018.10.002). Cited by:
Le Pape, Florian, Craig, David, Bean, Christopher J., (2021), "How deep ocean-land coupling controls the generation of secondary microseism Love waves", Nature Communications, 12, 1: pg: 2332, Apr, (DOI: 10.1038/s41467-021-22591-5). Cited by:
Pilch, Mathias, Altmann, Jürgen, (2021), "Seismic modelling of tracked-vehicle signals for monitoring and verification", Applied Geophysics, 18, 2: pg: 253-264, Jun, (DOI: 10.1007/s11770-021-0898-y). Cited by:
Eddy, Celia L., Ekström, Göran, (2020), "Comparisons between measurements and predictions of Rayleigh wave amplification across the contiguous United States", Physics of the Earth and Planetary Interiors, 299: pg: 106407, (DOI: 10.1016/j.pepi.2019.106407). Cited by:
Nelson, Peter L., Grand, Stephen P., (2018), "Lower-mantle plume beneath the Yellowstone hotspot revealed by core waves", Nature Geoscience, 11, 4: pg: 280-284, Apr, (DOI: 10.1038/s41561-018-0075-y). Cited by:
Khan, S., Meijde, M., Werff, H., Shafique, M., (2020), "The impact of topography on seismic amplification during the 2005 Kashmir earthquake", Natural Hazards and Earth System Sciences, 20, 2: pg: 399--411, (DOI: 10.5194/nhess-20-399-2020). Cited by:
Arran, M. I., Vriend, N. M., Muyzert, E., (2018), "Seismic Ground Roll Absorption and Reemission by Sand Dunes", Journal of Geophysical Research: Solid Earth, 123, 7: pg: 5675-5689, (DOI: 10.1029/2018JB015580). Cited by:
Lyu, Chao, Capdeville, Yann, Zhao, Liang, (2019), "Efficiency of the spectral element method with very high polynomial degree to solve the elastic wave equation", Geophysics, Geophysics, 85, 1: pg: T33-T43, 0016-8033, (DOI: 10.1190/geo2019-0087.1). Cited by:
BibTex | EndNote|Resources cited:[1][2]
Maguire, Ross, Ritsema, Jeroen, Bonnin, Mickaël, van Keken, Peter E., Goes, Saskia, (2018), "Evaluating the Resolution of Deep Mantle Plumes in Teleseismic Traveltime Tomography", Journal of Geophysical Research: Solid Earth, 123, 1: pg: 384-400, (DOI: 10.1002/2017JB014730). Cited by:
Fichtner, Andreas, van Herwaarden, Dirk-Philip, Afanasiev, Michael, Simutė, Saulė, Krischer, Lion, Çubuk-Sabuncu, Yeşim, Taymaz, Tuncay, Colli, Lorenzo, Saygin, Erdinc, Villaseñor, Antonio, Trampert, Jeannot, Cupillard, Paul, Bunge, Hans-Peter, Igel, Heiner, (2018), "The Collaborative Seismic Earth Model: Generation 1", Geophysical Research Letters, 45, 9: pg: 4007-4016, (DOI: 10.1029/2018GL077338). Cited by:
Holt, Adam F., (2022), "The Topographic Signature of Mantle Pressure Build-Up Beneath Subducting Plates: Insights From Spherical Subduction Models", Geophysical Research Letters, 49, 22: pg: e2022GL100330, (DOI: 10.1029/2022GL100330). Cited by:
Covellone, Brian M., Savage, Brian, (2012), "A Quantitative Comparison between 1D and 3D Source Inversion Methodologies: Application to the Middle East", Bulletin of the Seismological Society of America, Bulletin of the Seismological Society of America, 102, 5: pg: 2189-2199, 0037-1106, (DOI: 10.1785/0120110278). Cited by:
Shaw, John H., Plesch, Andreas, Tape, Carl, Suess, M. Peter, Jordan, Thomas H., Ely, Geoffrey, Hauksson, Egill, Tromp, Jeroen, Tanimoto, Toshiro, Graves, Robert, Olsen, Kim, Nicholson, Craig, Maechling, Philip J., Rivero, Carlos, Lovely, Peter, Brankman, Charles M., Munster, Jason, (2015), "Unified Structural Representation of the southern California crust and upper mantle", Earth and Planetary Science Letters, 415: pg: 1-15, (DOI: 10.1016/j.epsl.2015.01.016). Cited by:
Wenk, S., Pelties, C., Igel, H., Käser, M., (2013), "Regional wave propagation using the discontinuous Galerkin method", Solid Earth, 4, 1: pg: 43--57, (DOI: 10.5194/se-4-43-2013). Cited by:
Karkooti, Ehsan, Shomali, Zaher Hossein, Pakzad, Mehrdad, (2016), "Investigating the role of source mechanism, surface topography, and attenuation on the observed PGA pattern in May 28, 2004, Mw 6.2 Baladeh earthquake (Iran)", Journal of Seismology, 20, 2: pg: 495-510, Apr, (DOI: 10.1007/s10950-015-9540-x). Cited by:
Raghukanth, S.T.G., Kumari, K. Lakshmi, Somala, Surendra Nadh, (2013), "Regional level ground motion simulation for a hypothetical great earthquake in the Garwhal Himalaya", Geomatics, Natural Hazards and Risk, Taylor & Francis, 4, 3: pg: 202-225, (DOI: 10.1080/19475705.2012.731658). Cited by:
Raghukanth, S. T.G., Kumari, K. Lakshmi, Kavitha, B., (2012), "Estimation of ground motion during the 18th September 2011 Sikkim Earthquake", Geomatics, Natural Hazards and Risk, Taylor & Francis, 3, 1: pg: 9-34, (DOI: 10.1080/19475705.2011.646323). Cited by:
Raghukanth, S. T. G., Teja, B. Bhanu, (2012), "Ground Motion Simulation for January 26, 2001 Gujarat Earthquake by Spectral Finite Element Method", Journal of Earthquake Engineering, Taylor & Francis, 16, 2: pg: 252-273, (DOI: 10.1080/13632469.2011.634493). Cited by:
Hateley, J. C., Chai, L., Tong, P., Yang, X., (2019), "Frozen Gaussian approximation for 3-D elastic wave equation and seismic tomography", Geophysical Journal International, 216, 2: pg: 1394-1412, Feb, (DOI: 10.1093/gji/ggy498). Cited by:
Boehm, Christian, Fichtner, Andreas, (2019), "Lazy wave propagation", Geophysical Journal International, 216, 2: pg: 984-990, Feb, (DOI: 10.1093/gji/ggy295). Cited by:
Jayalakshmi, S., Dhanya, J., Raghukanth, S.T.G., Mai, P. Martin, (2020), "3D seismic wave amplification in the Indo-Gangetic basin from spectral element simulations", Soil Dynamics and Earthquake Engineering, 129: pg: 105923, (DOI: 10.1016/j.soildyn.2019.105923). Cited by:
Colombi, Andrea, (2016), "Resonant metalenses for flexural waves in plates", The Journal of the Acoustical Society of America, 140, 5: pg: EL423-EL428, (DOI: 10.1121/1.4967179). Cited by:
Gómez-García, Clara, Lebedev, Sergei, Meier, Thomas, Xu, Yihe, Le Pape, Florian, Wiesenberg, Lars, (2022), "Ambient noise autocorrelation scheme for imaging the P-wave reflectivity of the lithosphere", Geophysical Journal International, 233, 3: pg: 1671-1693, 12, (DOI: 10.1093/gji/ggac509). Cited by:
Wang, Kai, Yang, Yingjie, Jiang, Chengxin, Wang, Yi, Tong, Ping, Liu, Tianshi, Liu, Qinya, (2021), "Adjoint Tomography of Ambient Noise Data and Teleseismic P Waves: Methodology and Applications to Central California", Journal of Geophysical Research: Solid Earth, 126, 6: pg: e2021JB021648, (DOI: 10.1029/2021JB021648). Cited by:
Colombi, Andrea, Chaput, Julien, Brenguier, Florent, Hillers, Gregor, Roux, Philippe, Campillo, Michel, (2014), "On the temporal stability of the coda of ambient noise correlations", Comptes Rendus Geoscience, 346, 11: pg: 307-316, (DOI: 10.1016/j.crte.2014.10.002). Cited by:
Le Pape, Florian, Bean, Christopher J., (2021), "North Atlantic Oscillation (NAO) Climate Index Hidden in Ocean Generated Secondary Microseisms", Geophysical Research Letters, 48, 17: pg: e2021GL093657, (DOI: 10.1029/2021GL093657). Cited by:
Driel, M., Wassermann, J., Pelties, C., Schiemenz, A., Igel, H., (2015), "Tilt effects on moment tensor inversion in the near field of active volcanoes", Geophysical Journal International, 202, 3: pg: 1711-1721, Sep, (DOI: 10.1093/gji/ggv209). Cited by:
Foster, Anna, Ekström, Göran, Hjörleifsdóttir, Vala, (2014), "Arrival-angle anomalies across the USArray Transportable Array", Earth and Planetary Science Letters, 402: pg: 58-68, (DOI: 10.1016/j.epsl.2013.12.046). Cited by:
Molinari, Irene, Argnani, Andrea, Morelli, Andrea, Basini, Piero, (2015), "Development and Testing of a 3D Seismic Velocity Model of the Po Plain Sedimentary Basin, Italy", Bulletin of the Seismological Society of America, 105, 2A: pg: 753-764, Feb, (DOI: 10.1785/0120140204). Cited by:
Schiemenz, Alan, Igel, Heiner, (2013), "Accelerated 3-D full-waveform inversion using simultaneously encoded sources in the time domain: application to Valhall ocean-bottom cable data", Geophysical Journal International, 195, 3: pg: 1970-1988, Dec, (DOI: 10.1093/gji/ggt362). Cited by:
Guéguen, Philippe, Colombi, Andrea, (2016), "Experimental and Numerical Evidence of the Clustering Effect of Structures on Their Response during an Earthquake: A Case Study of Three Identical Towers in the City of Grenoble, France", Bulletin of the Seismological Society of America, 106, 6: pg: 2855-2864, Sep, (DOI: 10.1785/0120160057). Cited by:
Baron, Julie, Primofiore, Ilaria, Klin, Peter, Vessia, Giovanna, Laurenzano, Giovanna, (2022), "Investigation of topographic site effects using 3D waveform modelling: amplification, polarization and torsional motions in the case study of Arquata del Tronto (Italy)", Bulletin of Earthquake Engineering, 20, 2: pg: 677-710, Jan, (DOI: 10.1007/s10518-021-01270-2). Cited by:
Borisov, Dmitry, Modrak, Ryan, Gao, Fuchun, Tromp, Jeroen, (2017), "3D elastic full-waveform inversion of surface waves in the presence of irregular topography using an envelope-based misfit function", Geophysics, 83, 1: pg: R1-R11, Nov, (DOI: 10.1190/geo2017-0081.1). Cited by:
Rodgers, Arthur J., Pitarka, Arben, Petersson, N. Anders, Sjögreen, Björn, McCallen, David B., (2018), "Broadband (0–4 Hz) Ground Motions for a Magnitude 7.0 Hayward Fault Earthquake With Three-Dimensional Structure and Topography", Geophysical Research Letters, 45, 2: pg: 739-747, (DOI: 10.1002/2017GL076505). Cited by:
Koufoudi, E., Chaljub, E., Dufour, F., Bard, P. Y., Humbert, N., Robbe, E., (2018), "Spatial variability of earthquake ground motions at the dam--foundation rock interface of Saint Guérin: experimental and numerical investigations", Bulletin of Earthquake Engineering, 16, 5: pg: 1751-1777, May, (DOI: 10.1007/s10518-017-0266-8). Cited by:
Tsuboi, Seiji, Ando, Kazuto, Miyoshi, Takayuki, Peter, Daniel, Komatitsch, Dimitri, Tromp, Jeroen, (2016), "A 1.8 trillion degrees-of-freedom, 1.24 petaflops global seismic wave simulation on the K computer", The International Journal of High Performance Computing Applications, 30, 4: pg: 411-422, (DOI: 10.1177/1094342016632596). Cited by:
Chaljub, Emmanuel, Maufroy, Emeline, Moczo, Peter, Kristek, Jozef, Hollender, Fabrice, Bard, Pierre-Yves, Priolo, Enrico, Klin, Peter, Martin, Florent, Zhang, Zhenguo, Zhang, Wei, Chen, Xiaofei, (2015), "3-D numerical simulations of earthquake ground motion in sedimentary basins: testing accuracy through stringent models", Geophysical Journal International, 201, 1: pg: 90-111, Apr, (DOI: 10.1093/gji/ggu472). Cited by:
Galvez, Percy, Dalguer, Luis A., Ampuero, Jean‐Paul, Giardini, Domenico, (2016), "Rupture Reactivation during the 2011 Mw 9.0 Tohoku Earthquake: Dynamic Rupture and Ground‐Motion Simulations", Bulletin of the Seismological Society of America, 106, 3: pg: 819-831, May, (DOI: 10.1785/0120150153). Cited by:
Trinh, Phuong-Thu, Brossier, Romain, Métivier, Ludovic, Tavard, Laure, Virieux, Jean, (2018), "Efficient time-domain 3D elastic and viscoelastic full-waveform inversion using a spectral-element method on flexible Cartesian-based mesh", Geophysics, 84, 1: pg: R75-R97, Dec, (DOI: 10.1190/geo2018-0059.1). Cited by:
BibTex | EndNote|Resources cited:[1][2]
Galvez, Percy, Petukhin, Anatoly, Irikura, Kojiro, Somerville, Paul, (2020), "Dynamic Source Model for the 2011 Tohoku Earthquake in a Wide Period Range Combining Slip Reactivation with the Short-Period Ground Motion Generation Process", Pure and Applied Geophysics, 177, 5: pg: 2143-2161, May, (DOI: 10.1007/s00024-019-02210-7). Cited by:
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