| Titre : |
Theoretical and computational seismology |
| Type de document : |
texte imprimé |
| Auteurs : |
Jeroen Tromp (1966-....), Auteur |
| Editeur : |
Princeton, N.J. : Princeton University Press |
| Année de publication : |
2025, cop. 2025 |
| Importance : |
1 volume (xxiv-575 pages) : illustrations, diagrammes, cartes ; 26 cm |
| Présentation : |
illustrations, diagrammes, cartes |
| Format : |
26 cm |
| ISBN/ISSN/EAN : |
978-0-691-26796-8 |
| Note générale : |
PPN 291649661 |
| Langues : |
Anglais (eng) |
| Tags : |
Sismologie -- Mathématiques -- Manuels d'enseignement supérieur Sismologie -- Informatique Milieux continus, Mécanique des Cinématique Problèmes inverses (équations différentielles) Dynamique Variétés différentiables Calcul tensoriel Seismology -- Mathematics -- Textbooks Seismology -- Data processing -- Textbooks Continuum mechanics Inverse problems (Differential equations) Kinematics Dynamics Differentiable manifolds Calculus of tensors |
| Index. décimale : |
551.22 Tremblements de terre. Sismologie |
| Résumé : |
Over the past several decades, computational advances have revolutionized seismology, making it possible to simulate seismic wave propagation in complex Earth models and create detailed images of the planet’s interior. This cutting-edge text introduces students and scholars to the fundamentals, techniques, and applications of this exciting field of research and discovery.After establishing a strong foundation in continuum mechanics, the book presents the fundamentals of theoretical seismology, providing a basis for subsequent forward and inverse modeling grounded in numerical methods, and then focuses on computational seismology, investigating numerical solutions to seismic wave equations. The adjoint-state method is covered next, along with applications of this technique to waveform inversions across scales, after which the book concludes with a set of appendixes that provide a primer to differential geometry and tensor calculus, which are used throughout the book to explain the fundamental concepts of deformation, strain, and stress from both Eulerian and Lagrangian perspectives. Including over 150 student-tested exercises, the book is an essential resource for motivated students and scholars seeking to master the state of the art of theoretical and computational seismology (4e de couverture) |
| Note de contenu : |
Seismology glossary p. 257-258 - Appendix glossary p. 529-530 - Bibliographie p. 531-550. - Index auteurs p.551-558. Index p.559-575.
Sommaire (abrégé) : I- Continuum mechanics - Kinematics - Dynamics - Defects -- II - Seismology - Linearized equations of motion - Anelasticity and attentuation -- III - Forward problems - Strong methods - Weak methods -- IV - Inverse problems - Adjoint-state method - Optimization -- Introduction to the Appendices - Linear spaces and transformations - Differentiable manifolds - Vectors and one-forms -Tensors - Maps between manifolds - Differentiation on manifolds - Differential forms -- Appendix Glossary -- Bibliography -- Author Index -- Index |
Theoretical and computational seismology [texte imprimé] / Jeroen Tromp (1966-....), Auteur . - Princeton, N.J. : Princeton University Press, 2025, cop. 2025 . - 1 volume (xxiv-575 pages) : illustrations, diagrammes, cartes ; 26 cm : illustrations, diagrammes, cartes ; 26 cm. ISBN : 978-0-691-26796-8 PPN 291649661 Langues : Anglais ( eng)
| Tags : |
Sismologie -- Mathématiques -- Manuels d'enseignement supérieur Sismologie -- Informatique Milieux continus, Mécanique des Cinématique Problèmes inverses (équations différentielles) Dynamique Variétés différentiables Calcul tensoriel Seismology -- Mathematics -- Textbooks Seismology -- Data processing -- Textbooks Continuum mechanics Inverse problems (Differential equations) Kinematics Dynamics Differentiable manifolds Calculus of tensors |
| Index. décimale : |
551.22 Tremblements de terre. Sismologie |
| Résumé : |
Over the past several decades, computational advances have revolutionized seismology, making it possible to simulate seismic wave propagation in complex Earth models and create detailed images of the planet’s interior. This cutting-edge text introduces students and scholars to the fundamentals, techniques, and applications of this exciting field of research and discovery.After establishing a strong foundation in continuum mechanics, the book presents the fundamentals of theoretical seismology, providing a basis for subsequent forward and inverse modeling grounded in numerical methods, and then focuses on computational seismology, investigating numerical solutions to seismic wave equations. The adjoint-state method is covered next, along with applications of this technique to waveform inversions across scales, after which the book concludes with a set of appendixes that provide a primer to differential geometry and tensor calculus, which are used throughout the book to explain the fundamental concepts of deformation, strain, and stress from both Eulerian and Lagrangian perspectives. Including over 150 student-tested exercises, the book is an essential resource for motivated students and scholars seeking to master the state of the art of theoretical and computational seismology (4e de couverture) |
| Note de contenu : |
Seismology glossary p. 257-258 - Appendix glossary p. 529-530 - Bibliographie p. 531-550. - Index auteurs p.551-558. Index p.559-575.
Sommaire (abrégé) : I- Continuum mechanics - Kinematics - Dynamics - Defects -- II - Seismology - Linearized equations of motion - Anelasticity and attentuation -- III - Forward problems - Strong methods - Weak methods -- IV - Inverse problems - Adjoint-state method - Optimization -- Introduction to the Appendices - Linear spaces and transformations - Differentiable manifolds - Vectors and one-forms -Tensors - Maps between manifolds - Differentiation on manifolds - Differential forms -- Appendix Glossary -- Bibliography -- Author Index -- Index |
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Theoretical and computational seismology (2025, cop. 2025)