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Biblioteca

MARC Lista (tabellare)
Algebraic Coding Theory Over Finite Commutative Rings / Steven T. Dougherty
Algebraic Coding Theory Over Finite Commutative Rings / Steven T. Dougherty
Autore Dougherty, Steven T.
Pubbl/distr/stampa Cham, : Springer, 2017
Descrizione fisica x, 103 p. ; 24 cm
Soggetto topico 11T71 Algebraic coding theory; cryptography [MSC 2020]
94B05 - Linear codes, general [MSC 2020]
Soggetto non controllato Complex theory
Complex-analytic manifolds
Differential equations
Geophysics
Partial differential equations
Poincaré balayage problem
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Titolo uniforme
Record Nr. UNICAMPANIA-VAN0123502
Dougherty, Steven T.  
Cham, : Springer, 2017
Materiale a stampa
Lo trovi qui: Univ. Vanvitelli
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Bayesian Inference and Maximum Entropy Methods in Science and Engineering : MaxEnt 37, Jarinu, Brazil, July 09–14, 2017 / Adriano Polpo ... [et al.] editors
Bayesian Inference and Maximum Entropy Methods in Science and Engineering : MaxEnt 37, Jarinu, Brazil, July 09–14, 2017 / Adriano Polpo ... [et al.] editors
Pubbl/distr/stampa Cham, : Springer, 2018
Descrizione fisica xvi, 304 p. : ill. ; 24 cm
Soggetto topico 82B41 - Random walks, random surfaces, lattice animals, etc. in equilibrium statistical mechanics [MSC 2020]
60G35 - Signal detection and filtering (aspects of stochastic processes) [MSC 2020]
62-XX - Statistics [MSC 2020]
82B31 - Stochastic methods applied to problems in equilibrium statistical mechanics [MSC 2020]
62Axx - Foundational topics in statistics [MSC 2020]
65Cxx - Probabilistic methods, stochastic differential equations [MSC 2020]
81Pxx - Foundations, quantum information and its processing, quantum axioms, and philosophy [MSC 2020]
62Fxx - Parametric inference [MSC 2020]
85A35 - Statistical astronomy [MSC 2020]
Soggetto non controllato Astrophysics
Biostatistics
Chemistry
Climate Studies
Communications Theory
Comology
Earth Science
Entropy
Fluid mechanics
Genetics
Geophysics
Imprecise Probability
Machine learning
Material Science
Maximum Entropy
Medical Imaging
Non-parametric Mmethods
Robotics
Statistical models
Survival analysis
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Titolo uniforme
Record Nr. UNICAMPANIA-VAN0124581
Cham, : Springer, 2018
Materiale a stampa
Lo trovi qui: Univ. Vanvitelli
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Carbon in Earth's Interior
Carbon in Earth's Interior
Autore Lin Jung-Fu
Pubbl/distr/stampa Newark : , : American Geophysical Union, , 2020
Descrizione fisica 1 online resource (373 pages)
Disciplina 551.9
Altri autori (Persone) ManningCraig E
MaoWendy L
Collana Geophysical Monograph
Soggetto topico Geochemistry
Soggetto non controllato Geophysics
Science
ISBN 1-119-50824-X
1-119-50822-3
1-119-50823-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- CONTENTS -- CONTRIBUTORS -- PREFACE -- Chapter 1 Pressure-Induced sp2-sp3 Transitions in Carbon-Bearing Phases -- 1.1. INTRODUCTION -- 1.2. ELEMENTAL CARBON -- 1.2.1. Metastable Phases -- 1.2.2. Phase Diagram at High Temperature and in the TPa Pressure Range -- 1.3. CARBONATES -- 1.3.1. (Mg,Fe) Carbonates -- 1.3.2. Ca Carbonates and Ca(Mg,Fe) Carbonates -- 1.4. HYDROCARBONS -- ACKNOWLEDGMENTs -- REFERENCES -- Chapter 2 High-Pressure Carbonaceous Phases as Minerals -- 2.1. INTRODUCTION -- 2.1.1. High-Pressure Minerals in Meteorites and Impactites -- 2.2. CARBONACEOUS PHASES AS INCLUSION IN DIAMOND: ELEMENTS AND CARBIDES -- 2.2.1. Diamond in Diamond: Indication for Methane Breakdown in the Lithospheric Mantle -- 2.2.2. Carbides: Possible Indicators of Reducing Conditions in the Transition Zone and Lower Mantle -- 2.3. OXIDES AND CARBONATES -- 2.3.1. Carbon Dioxide -- 2.3.2. Carbonates -- CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 3 Phase and Melting Relations of Fe3C to 300 GPa and Carbon in the Core -- 3.1. INTRODUCTION -- 3.2. EXPERIMENTAL PROCEDURE -- 3.2.1. Sample Preparations -- 3.2.2. In-Situ X-Ray Diffraction Experiments -- 3.2.3. Quench Experiment and Sample Analysis -- 3.3. RESULTS -- 3.3.1. In-Situ X-Ray Diffraction Experiments -- 3.3.2. Textual Observations and Chemical Analysis of the Recovered Sample -- 3.4. DISCUSSION -- ACKNOWLEDGMENTS -- AUTHOR CONTRIBUTIONS -- REFERENCES -- Chapter 4 Structure and Properties of Liquid Fe-C Alloys at High Pressures by Experiments and First-Principles Calculations -- 4.1. INTRODUCTION -- 4.2. STRUCTURE OF FE‐C AND FE-NI-C LIQUIDS -- 4.2.1. Experimental Results -- 4.2.2. Computational Results -- 4.3. RELATIONSHIP BETWEEN PROPERTY AND STRUCTURE AND GEOPHYSICAL IMPLICATIONS -- 4.4. CONCLUSIONs -- ACKNOWLEDGMENTS -- REFERENCES.
Chapter 5 A Geologic Si-O-C Pathway to Incorporate Carbon in Silicates -- 5.1. INTRODUCTION AND BACKGROUND -- 5.2. HYPOTHESIS: THE GEOLOGIC SI-O-C PATHWAY -- 5.2.1. Geologic Evidence for the Si-O-C Pathway -- 5.3. UNANSWERED QUESTIONS AND FUTURE RESEARCH DIRECTIONS -- ACKNOWLEDGMENTs -- REFERENCES -- Chapter 6 Structural and Chemical Modifications of Carbon Dioxide on Transport to the Deep Earth -- 6.1. INTRODUCTION -- 6.2. MOLECULAR CRYSTAL PHASES -- 6.3. EXTENDED COVALENT PHASES -- 6.4. MELTING LINE -- 6.5. CARBON DIOXIDE STABILITY VERSUS DISSOCIATION -- 6.6. CONCLUSIONS -- ACKNOWLEDGMENTs -- REFERENCES -- Chapter 7 Carbon Redox Chemistry: Deep Carbon Dioxide and Carbonates -- 7.1. INTRODUCTION -- 7.2. EXPERIMENTAL METHOD -- 7.3. RESULTS -- 7.3.1. Carbon Oxidation -- 7.3.2. Carbonate Formation -- 7.3.3. Ionization of XCO2 -- 7.3.4. Pressure-Induced Amorphization -- 7.4. DISCUSSION -- 7.5. CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 8 Crystallization of Water Mediated by Carbon -- 8.1. INTRODUCTION -- 8.2. METHODS -- 8.3. HETEROGENEOUS ICE NUCLEATION FACILITATED BY GRAPHITIC CARBON -- 8.3.1. Verification of Heterogeneous Classical Nucleation Theory -- 8.3.2. Molecular Insight Into the Complex Nature of Heterogeneous Ice Nucleation -- 8.3.3. Role of Local Ordering of Water in Ice Nucleation -- 8.4. NUCLEATION OF GAS HYDRATE -- 8.5. CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 9 Structures and Crystal Chemistry of Carbonate at Earth's Mantle Conditions -- 9.1. INTRODUCTION -- 9.2. EXPERIMENTAL STRUCTURAL INVESTIGATION ON CARBONATES: METHODS -- 9.3. EXPERIMENTAL DETERMINATION OF CARBONATE STRUCTURES: CASE STUDIES -- 9.3.1. Calcium Carbonates With CO3 Units -- 9.3.2. Carbonates with [4]-Coordination Carbon -- 9.3.3. Alkali and Mixed-Alkali Carbonates -- 9.4. CONCLUDING REMARKS -- ACKNOWLEDGMENTS -- REFERENCES.
Chapter 10 Nitrogen Diffusion in Calcite -- 10.1. INTRODUCTION -- 10.2. METHODS -- 10.2.1. Experimental Procedure -- 10.2.2. Nuclear Reaction Analysis (NRA) of Nitrogen -- 10.3. RESULTS -- 10.3.1. O, C, and Noble Gas Diffusion in Carbonates -- 10.4. GEOLOGICAL IMPLICATIONS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 11 High-Pressure Transformations and Stability of Ferromagnesite in the Earth's Mantle -- 11.1. INTRODUCTION -- 11.2. COMPRESSION OF MG-FE RHOMBOHEDRAL CARBONATE -- 11.3. HIGH-PRESSURE POLYMORPHISM OF FERROMAGNESITE -- 11.3.1. Evidence for Tetrahedrally Coordinated Carbon -- 11.3.2. Self-Redox Reactions in Fe2+‐Bearing Carbonates -- 11.4. CONCLUSIONS AND OUTLOOKS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 12 Spin Transition of Iron in Deep-Mantle Ferromagnesite -- 12.1. INTRODUCTION -- 12.2. FE2+ SPIN TRANSITION IN (MG,FE)CO3 -- 12.2.1. Crystal Field Theory and Parameters of the Spin Transition in Ferromagnesite -- 12.2.2. Characterizations of the Fe2+ Spin Transition in (Mg,Fe)CO3 at High Pressure -- 12.2.3. The Effects of the Fe2+ Spin Transition on Physical Properties of (Mg,Fe)CO3 -- 12.3. CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 13 High-Pressure Na-Ca Carbonates in the Deep Carbon Cycle -- 13.1. CARBONATES IN SUBDUCTION INFLUX OF CARBON -- 13.2. SUBDUCTED CARBONATES IN THE UPPER MANTLE -- 13.3. SUBDUCTED CARBONATES IN THE MANTLE TRANSITION ZONE -- 13.4. CRYSTAL CHEMISTRY OF HIGH-PRESSURE NA-CA CARBONATES -- 13.5. CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 14 Phase Diagrams of Carbonate Materials at High Pressures, with Implications for Melting and Carbon Cycling in the Deep Earth -- 14.1. INTRODUCTION -- 14.2. EXPERIMENTAL METHODS -- 14.3. PHASE DIAGRAMS OF CARBONATES -- 14.3.1. Melting and Phase Transitions in Simple Carbonate Systems -- 14.3.2. Binary Carbonate Systems at High Pressures.
14.3.3. Ternary Carbonate Phase Diagrams -- 14.4. IMPLICATIONS FOR MELTING IN THE DEEP EARTH'S MANTLE -- 14.4.1. Carbonates in the Complex Experimental Systems -- 14.4.2. The Lower Temperature Stability Limits of Carbonatite Melts at 100-200 km Depths -- 14.4.3. Implication of Carbonate Phase Diagrams to Mantle‐Derived Carbonatite Inclusions -- 14.4.4. Carbonates in the Lower Mantle -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 15 Reactive Preservation of Carbonate in Earth's Mantle Transition Zone -- 15.1. INTRODUCTION -- 15.2. MATERIALS AND METHODS -- 15.2.1. High-Pressure Experiments -- 15.2.2. Raman Spectroscopy Analysis -- 15.2.3. Electron Microprobe Analyses -- 15.3. RESULTS -- 15.4. DISCUSSION -- 15.4.1. Chemical Stability of Carbonates in MTZ -- 15.4.2. Water Enhances Carbonate-Silicate Reaction -- 15.4.3. Reactive Preservation of Carbonate -- 15.4.4. Implications for Deep Carbon Cycle -- 15.5. CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 16 Carbon Speciation and Solubility in Silicate Melts -- 16.1. INTRODUCTION -- 16.2. EXPERIMENTS ON SILICATE MELTS -- 16.2.1. Speciation of Carbon -- 16.2.2. Solubility of Carbon -- 16.3. SIMULATIONS OF SILICATE MELTS -- 16.3.1. Solubility of Carbon Dioxide in the Silicate Melt -- 16.3.2. Carbon Coordinated by Oxygen -- 16.3.3. Carbon Complexes -- 16.3.4. Elemental Diffusivities -- 16.3.5. Equation of State -- 16.3.6. Diamond Formation -- 16.4. CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 17 The Effect of Variable Na/K on the CO2 Content of Slab-Derived Rhyolitic Melts -- 17.1. INTRODUCTION -- 17.2. METHODS -- 17.2.1. Starting Material -- 17.2.2. Experimental Technique -- 17.2.3. Analytical Techniques -- 17.3. RESULTS -- 17.3.1. Texture and Major Element Composition -- 17.3.2. Dissolved CO2 and H2O -- 17.4. DISCUSSION.
17.4.1. Composition-Dependent CO2 Dissolution in Silicate Melt: Comparison to Previous Studies -- 17.4.2. Parameterization -- 17.4.3. Implications for Slab-Mantle CO2 Transfer in Subduction Zones -- 17.5. CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 18 Hydrous Carbonatitic Liquids Drive CO2 Recycling From Subducted Marls and Limestones -- 18.1. INTRODUCTION -- 18.2. MODELING IMPURE MARBLES: THE SYSTEM CaO-Al2O3-SiO2-H2O-CO2 -- 18.3. EXPERIMENTAL AND ANALYTICAL METHODS -- 18.4. RESULTS -- 18.4.1. Microstructural Analysis -- 18.4.2. Chemistry of Precipitates and Composition of the Liquid -- 18.5. HYDROUS-CARBONATITIC LIQUIDS FORM AT SUB-ARCS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 19 The Viscosity of Carbonate-Silicate Transitional Melts at Earth's Upper Mantle Pressures and Temperatures, Determined by the In Situ Falling-Sphere Technique -- 19.1. INTRODUCTION -- 19.2. MATERIALS AND METHODS -- 19.3. RESULTS -- 19.4. DISCUSSION -- 19.4.1. Effect of Pressure and Temperature on the Viscosity Data -- 19.4.2. Implications for the Transport of Oxidized Carbon in the Upper Mantle -- 19.5. CONCLUSIONS -- ACKNOWLEDGMENTS -- SUPPLEMENTAL MATERIAL -- REFERENCES -- Chapter 20 Mixed Fluids of Water and Carbon Dioxide -- 20.1. INTRODUCTION -- 20.2. AVAILABLE DATA -- 20.3. MISCIBILITIES -- 20.4. SPECIATION -- 20.5. EQUATION OF STATE -- 20.6. AVENUES FOR PROGRESS -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 21 Experimental Determination of Calcite Solubility in H2O-KCl-NaCl-LiCl Solutions at 700°C and 8 kbar -- 21.1. INTRODUCTION -- 21.2. METHODS -- 21.2.1. Starting Materials -- 21.2.2. Capsule Assembly -- 21.2.3. Experimental Apparatus and Setup -- 21.2.4. Solubility Determination -- 21.2.5. Salt Concentration Notation -- 21.3. RESULTS -- 21.3.1. Textures -- 21.3.2. Solubility in Single-Salt Solutions -- 21.3.3. Solubility in Mixed-Salt Solutions.
21.4. DISCUSSION.
Record Nr. UNINA-9910633909203321
Lin Jung-Fu  
Newark : , : American Geophysical Union, , 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Computational methods for applied inverse problems [[electronic resource] /] / edited by Yanfei Wang, Anatoly G. Yagola, Changchun Yang
Computational methods for applied inverse problems [[electronic resource] /] / edited by Yanfei Wang, Anatoly G. Yagola, Changchun Yang
Pubbl/distr/stampa Berlin, : De Gruyter, 2012
Descrizione fisica 1 online resource (552 p.)
Disciplina 515
515.35
515/.35
Altri autori (Persone) WangYanfei <1973->
YagolaA. G
YangChangchun <1945->
Collana Inverse and ill-posed problems series
Soggetto topico Inverse problems (Differential equations) - Numerical solutions
Differential equations - Numerical solutions
Soggetto non controllato Computational Method
Geography
Geophysics
Image Processing
Inverse Problem
Oceanography
Operator Theory
Optimization
Regularization
Remote Sensing
ISBN 1-283-85670-0
3-11-025905-2
Classificazione SK 920
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front matter -- Preface -- Editor's Preface -- Contents -- Part I. Introduction -- Chapter 1. Inverse Problems of Mathematical Physics / Kabanikhin, S. I. -- Part II. Recent Advances in Regularization Theory and Methods -- Chapter 2. Using Parallel Computing for Solving Multidimensional Ill-posed Problems / Lukyanenko, D. V. / Yagola, A. G. -- Chapter 3. Regularization of Fredholm Integral Equations of the First Kind using Nyström Approximation / Nair, M. T. -- Chapter 4. Regularization of Numerical Differentiation: Methods and Applications / Xiao, T. Y. / Zhang, H. / Hao, L. L. -- Chapter 5. Numerical Analytic Continuation and Regularization / Fu, C. L. / Cheng, H. / Ma, Y. J. -- Chapter 6. An Optimal Perturbation Regularization Algorithm for Function Reconstruction and Its Applications / Li, G. S. -- Chapter 7. Filtering and Inverse Problems Solving / Zotov, L. V. / Panteleev, V. L. -- Part III. Optimal Inverse Design and Optimization Methods -- Chapter 8. Inverse Design of Alloys' Chemistry for Specified Thermo-Mechanical Properties by using Multi-objective Optimization / Dulikravich, G. S. / Egorov, I. N. -- Chapter 9. Two Approaches to Reduce the Parameter Identification Errors / Xiang, Z. H. -- Chapter 10. A General Convergence Result for the BFGS Method / Dai, Y. H. -- Part IV. Recent Advances in Inverse Scattering -- Chapter 11. Uniqueness Results for Inverse Scattering Problems / Liu, X. D. / Zhang, B. -- Chapter 12. Shape Reconstruction of Inverse Medium Scattering for the Helmholtz Equation / Bao, G. / Li, P. J. -- Part V. Inverse Vibration, Data Processing and Imaging -- Chapter 13. Numerical Aspects of the Calculation of Molecular Force Fields from Experimental Data / Kuramshina, G. M. / Kochikov, I. V. / Stepanova, A. V. -- Chapter 14. Some Mathematical Problems in Biomedical Imaging / Liu, J. J. / Xu, H. L. -- Part VI Numerical Inversion in Geosciences -- Chapter 15. Numerical Methods for Solving Inverse Hyperbolic Problems / Kabanikhin, S. I. / Shishlenin, M. A. -- Chapter 16. Inversion Studies in Seismic Oceanography / Song, H. B. / Huang, X. H. / Pinheiro, L. M. / Song, Y. / Dong, C. Z. / Bai, Y. -- Chapter 17. Image Resolution Beyond the Classical Limit / Gelius, L. J. -- Chapter 18. Seismic Migration and Inversion / Wang, Y. F. / Li, Z. H. / Yang, C. C. -- Chapter 19. Seismic Wavefields Interpolation Based on Sparse Regularization and Compressive Sensing / Wang, Y. F. / Cao, J. J. / Sun, T. / Yang, C. C. -- Chapter 20. Some Researches on Quantitative Remote Sensing Inversion / Yang, H. -- Index
Record Nr. UNINA-9910786433903321
Berlin, : De Gruyter, 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Computational methods for applied inverse problems [[electronic resource] /] / edited by Yanfei Wang, Anatoly G. Yagola, Changchun Yang
Computational methods for applied inverse problems [[electronic resource] /] / edited by Yanfei Wang, Anatoly G. Yagola, Changchun Yang
Edizione [1st ed.]
Pubbl/distr/stampa Berlin, : De Gruyter, 2012
Descrizione fisica 1 online resource (552 p.)
Disciplina 515
515.35
515/.35
Altri autori (Persone) WangYanfei <1973->
YagolaA. G
YangChangchun <1945->
Collana Inverse and ill-posed problems series
Soggetto topico Inverse problems (Differential equations) - Numerical solutions
Differential equations - Numerical solutions
Soggetto non controllato Computational Method
Geography
Geophysics
Image Processing
Inverse Problem
Oceanography
Operator Theory
Optimization
Regularization
Remote Sensing
ISBN 1-283-85670-0
3-11-025905-2
Classificazione SK 920
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front matter -- Preface -- Editor's Preface -- Contents -- Part I. Introduction -- Chapter 1. Inverse Problems of Mathematical Physics / Kabanikhin, S. I. -- Part II. Recent Advances in Regularization Theory and Methods -- Chapter 2. Using Parallel Computing for Solving Multidimensional Ill-posed Problems / Lukyanenko, D. V. / Yagola, A. G. -- Chapter 3. Regularization of Fredholm Integral Equations of the First Kind using Nyström Approximation / Nair, M. T. -- Chapter 4. Regularization of Numerical Differentiation: Methods and Applications / Xiao, T. Y. / Zhang, H. / Hao, L. L. -- Chapter 5. Numerical Analytic Continuation and Regularization / Fu, C. L. / Cheng, H. / Ma, Y. J. -- Chapter 6. An Optimal Perturbation Regularization Algorithm for Function Reconstruction and Its Applications / Li, G. S. -- Chapter 7. Filtering and Inverse Problems Solving / Zotov, L. V. / Panteleev, V. L. -- Part III. Optimal Inverse Design and Optimization Methods -- Chapter 8. Inverse Design of Alloys' Chemistry for Specified Thermo-Mechanical Properties by using Multi-objective Optimization / Dulikravich, G. S. / Egorov, I. N. -- Chapter 9. Two Approaches to Reduce the Parameter Identification Errors / Xiang, Z. H. -- Chapter 10. A General Convergence Result for the BFGS Method / Dai, Y. H. -- Part IV. Recent Advances in Inverse Scattering -- Chapter 11. Uniqueness Results for Inverse Scattering Problems / Liu, X. D. / Zhang, B. -- Chapter 12. Shape Reconstruction of Inverse Medium Scattering for the Helmholtz Equation / Bao, G. / Li, P. J. -- Part V. Inverse Vibration, Data Processing and Imaging -- Chapter 13. Numerical Aspects of the Calculation of Molecular Force Fields from Experimental Data / Kuramshina, G. M. / Kochikov, I. V. / Stepanova, A. V. -- Chapter 14. Some Mathematical Problems in Biomedical Imaging / Liu, J. J. / Xu, H. L. -- Part VI Numerical Inversion in Geosciences -- Chapter 15. Numerical Methods for Solving Inverse Hyperbolic Problems / Kabanikhin, S. I. / Shishlenin, M. A. -- Chapter 16. Inversion Studies in Seismic Oceanography / Song, H. B. / Huang, X. H. / Pinheiro, L. M. / Song, Y. / Dong, C. Z. / Bai, Y. -- Chapter 17. Image Resolution Beyond the Classical Limit / Gelius, L. J. -- Chapter 18. Seismic Migration and Inversion / Wang, Y. F. / Li, Z. H. / Yang, C. C. -- Chapter 19. Seismic Wavefields Interpolation Based on Sparse Regularization and Compressive Sensing / Wang, Y. F. / Cao, J. J. / Sun, T. / Yang, C. C. -- Chapter 20. Some Researches on Quantitative Remote Sensing Inversion / Yang, H. -- Index
Record Nr. UNINA-9910812894403321
Berlin, : De Gruyter, 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Encyclopedia of Astrobiology / Muriel Gargaud … [et al.] editors]
Encyclopedia of Astrobiology / Muriel Gargaud … [et al.] editors]
Edizione [Continuously updated ed]
Pubbl/distr/stampa Berlin ; Heidelberg, : Springer, 2020-
Descrizione fisica pag. varia : ill. ; 24 cm
Soggetto topico 92-XX - Biology and other natural sciences [MSC 2020]
00A79 (77-XX) - Physics [MSC 2020]
85-XX - Astronomy and Astrophysics [MSC 2020]
86-XX - Geophysics [MSC 2020]
Soggetto non controllato Astrophysics
Biology
Geophysics
Physics and Astronomy
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Titolo uniforme
Record Nr. UNICAMPANIA-VAN0233991
Berlin ; Heidelberg, : Springer, 2020-
Materiale a stampa
Lo trovi qui: Univ. Vanvitelli
Opac: Controlla la disponibilità qui
Geothermics : An Introduction / G. Buntebarth
Geothermics : An Introduction / G. Buntebarth
Autore Buntebarth, Günter
Pubbl/distr/stampa Berlin, : Springer, 1984
Descrizione fisica x, 144 p. : ill. ; 24 cm
Soggetto topico 86-XX - Geophysics [MSC 2020]
Soggetto non controllato Energy
Energy consumption
Environment
Geophysics
Geothermics
Lava
Production
Prospecting
Research
Reservoir
Sediment
Sedimentary rocks
Seismic
Soil
Water
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNICAMPANIA-VAN0263243
Buntebarth, Günter  
Berlin, : Springer, 1984
Materiale a stampa
Lo trovi qui: Univ. Vanvitelli
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Himalaya : Dynamics of a Giant, Current Activity of the Himalayan Range / / edited by Rodolphe Cattin and Jean-Luc Epard
Himalaya : Dynamics of a Giant, Current Activity of the Himalayan Range / / edited by Rodolphe Cattin and Jean-Luc Epard
Edizione [First edition.]
Pubbl/distr/stampa London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023]
Descrizione fisica 1 online resource (314 pages)
Disciplina 915.49604
Soggetto non controllato Geophysics
Geology
Science
ISBN 1-394-22868-6
1-394-22866-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- Contents -- Tributes -- Foreword -- Preface. From Research to Education: The Example of the Seismology at School in Nepal Program -- Part 1. Surface Process -- Chapter 1. Orogenesis and Climate -- 1.1. Introduction -- 1.2.Climate inAsia: present and past -- 1.2.1.Present-dayclimate -- 1.2.2.Cenozoic climate evolution -- 1.3. Reconstructing the paleo-elevation of landforms -- 1.4.The contributionof climatemodeling -- 1.4.1. Impact of orogenesis on the atmospheric circulation -- 1.4.2. Impact of orogenesis on the ocean circulation -- 1.4.3. Impact of orogenesis on the chemical composition of the atmosphere -- 1.5.Conclusion -- 1.6.References -- Chapter 2. Eroding the Himalaya: Processes, Evolution, Implications -- 2.1. Introduction -- 2.2.Main process domains in theHimalaya -- 2.2.1.Himalayanrivers -- 2.2.2.The glaciatedHighRange -- 2.2.3. Critical hillslopes -- 2.3. Extreme events and their contribution to denudation -- 2.4. 1-10 ka timescale and climatic oscillations -- 2.5. Impact of long-term tectonic and climatic evolution over several Ma -- 2.6. Out of the Himalaya: sediment transport and storage from the range to the sedimentarybasin -- 2.7.Conclusion -- 2.8.References -- Part 2. Natural Hazards -- Chapter 3. Glaciers and Glacier Lake Outburst Floods in the Himalaya -- 3.1. Introduction -- 3.2.Glaciers andtheir future -- 3.2.1. The present state of glaciers at a regional scale -- 3.2.2. On the interest of monitoring glaciers -- 3.2.3.What will happen to the Himalayan glaciers and Karakoram glaciers? -- 3.3.Glacier lakes -- 3.3.1. Formation and present distribution of glacier lakes in theHimalaya -- 3.3.2. Historic changes of glacier lake abundance and size -- 3.3.3.Projectionsof futureglacier lakes -- 3.4. Glacial lake outburst floods and downstream propagation -- 3.4.1.GLOFtriggers.
3.4.2. Dam breach -- 3.4.3.Floodpropagation -- 3.4.4.Earlywarning -- 3.5.Consequences and impact -- 3.6.Role in landscape formation -- 3.7.Conclusion -- 3.8.References -- Chapter 4. Landsliding in the Himalaya: Causes and Consequences -- 4.1. Introduction -- 4.2. Understanding landsliding and their links to the dynamics of theHimalayanrange -- 4.2.1. Preliminary notions on the mechanics of landsliding -- 4.2.2. Seasonal landsliding caused by monsoons and extreme rainfall -- 4.2.3. Landslide induced by earthquakes and other exceptional perturbations -- 4.2.4.Giant and paleo-landslides -- 4.3.LandslideswithinHimalayansociety -- 4.3.1. Hazard cascades and their societal impact -- 4.3.2. Human activities as an additional trigger of landslides -- 4.3.3. Potential for mitigation -- 4.3.4. Climate change and future landsliding -- 4.4.Conclusion -- 4.5.References -- Chapter 5. Himalayan Surface Rupturing Earthquakes -- 5.1. Introduction -- 5.2. The large devastating earthquakes in the Himalaya -- 5.2.1. Historical chronicles and earthquakes -- 5.2.2. Strong instrumental earthquakes -- 5.3. Surface expression of the seismic deformation in the landscape andwithin paleoseismological excavations -- 5.3.1. In the mesoseismal trace of the 1934 earthquake -- 5.3.2. In the mesoseismal trace of the 1714 earthquake in Bhutan -- 5.3.3. In the mesoseismal trace of the 1950 earthquake -- 5.4. Overview of the paleoseismological excavations along theHimalayanarc -- 5.5. Abandoned alluvial terraces, an archive of the paleoearthquakes -- 5.6.Conclusion -- 5.7.References -- Chapter 6. Seismic Coupling and Hazard Assessment of the Himalaya -- 6.1. Introduction -- 6.2. From current ground motion to the buildup of slip deficit at depth -- 6.2.1. Geodetic observations of the interseismic period -- 6.2.2. Inferring coupling along the MHT with a Bayesian analysis.
6.2.3. Interseismic couplingdistribution -- 6.2.4.Discussion -- 6.3.Seismic potentialof theMHT -- 6.3.1.Conservationof the seismicmoment -- 6.3.2. Magnitude-frequency distribution in the Himalaya -- 6.3.3. Including the physics of fault slip in seismic hazard -- 6.3.4.Seismic potential of theMHT -- 6.4. Seismic hazard in the Himalaya -- 6.4.1. Ground motion prediction equations and Vs30 -- 6.4.2.Modelingscenario events -- 6.4.3. Probabilistic seismic hazard assessment -- 6.4.4. From hazard to risk -- 6.5.Conclusion -- 6.6.References -- Part 3. Focus -- Chapter 7. Recent and Present Deformation of the Western Himalaya -- 7.1. Introduction -- 7.2.Structural styles and tectonic prismmodel -- 7.2.1.Themainstructural zones -- 7.2.2. The Himalaya in the west of the syntax -- 7.2.3. The Himalaya of the Jammu-Kashmir area -- 7.2.4. A structural evolution in agreement with the tectonic prismmodel -- 7.3. Out-of-sequence deformation in the western Himalayan syntax -- 7.3.1. Quaternary out-of-sequence activity of the NW Himalayan thrusts -- 7.3.2. Out-of-sequence seismological and paleoseismological activity in theNWHimalaya -- 7.4. Deformation associated with a ductile décollement, not always aseismic -- 7.4.1. Seismic coupling assessment along the MHT -- 7.4.2. Occurrence of ruptures on asperities -- 7.4.3. Transition between thin-skin and thick-skin tectonics -- 7.5.Conclusion -- 7.6.References -- Chapter 8. The 2015 April 25 Gorkha Earthquake -- 8.1. Introduction -- 8.2. The mainshock and its effects on the ground -- 8.2.1. Overview description of the mainshock -- 8.2.2. Ground motion and deformation -- 8.3. Investigatingthe seismic source at depth -- 8.4.Aftershockactivity andpost-seismic relaxation -- 8.4.1. Early aftershocks and the occurrence of the Kodari earthquake -- 8.4.2. Seismicity monitored by denser, dedicated temporary networks.
8.4.3. Post-seismic relaxation monitored by geodetic and seismological networks -- 8.5. A more earthquake-informed and earthquake-resilient local community in the aftermath of the earthquake -- 8.6.Conclusion -- 8.7.References -- Chapter 9. Crustal Fluids in the Nepal Himalaya and Sensitivity to the Earthquake Cycle -- 9.1. Introduction -- 9.2. Overview of thermal springs geochemistry in Nepal -- 9.3. Overview of gaseous emission zones in Nepal -- 9.4.Spatial organizationof crustalfluid release -- 9.5. Temporal variations of crustal fluid release: a tectonic control -- 9.6.Conclusion -- 9.7.References -- Conclusion -- List of Authors -- Index -- Summaries of other volumes -- EULA.
Record Nr. UNINA-9910735562203321
London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023]
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Himalaya : Dynamics of a Giant, Tectonic Units and Structure of the Himalaya / / edited by Rodolphe Cattin and Jean-Luc Epard
Himalaya : Dynamics of a Giant, Tectonic Units and Structure of the Himalaya / / edited by Rodolphe Cattin and Jean-Luc Epard
Edizione [First edition.]
Pubbl/distr/stampa London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023]
Descrizione fisica 1 online resource (270 pages)
Disciplina 915.49604
Soggetto non controllato Geophysics
Geology
Science
ISBN 1-394-22862-7
1-394-22859-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- Contents -- Tributes -- Foreword -- Preface. From Research to Education: The Example of the Seismology at School in Nepal Program -- Part 1. Tethyan Himalayan Sequence -- Chapter 1. Magmatism in the Kohistan-Ladakh Paleo-arc: Building Continental Crust During the India-Eurasia Convergence -- 1.1. Introduction -- 1.2. Geological setting of the Kohistan-Ladakh arc -- 1.3.Main geological contacts -- 1.3.1. The Shyok Suture Zone -- 1.3.2. The Indus Suture Zone -- 1.4. Reconstruction of the arc structure and evolution -- 1.4.1.SouthernPlutonicComplex -- 1.4.2.ChilasComplex -- 1.4.3. Gilgit Complex and Kohistan Batholith -- 1.4.4. Ladakh Batholith -- 1.5. Geochemistry and magmatic evolution of Kohistan-Ladakh magmas -- 1.5.1. Inferences for juvenile continental crust construction -- 1.5.2. Isotopic composition, inferences on the mantle source and crustal assimilation, and implications for the timing of collisions -- 1.6. Tectonic reconstructions of Kohistan-Ladakh arc evolution -- 1.6.1. Scenario 1: south-dipping subduction zone -- 1.6.2. Scenario 2: north-dipping subduction zone -- 1.7.Conclusion -- 1.8.References -- Chapter 2. Suture Zone -- 2.1. Introduction -- 2.2.General geologicaldescriptionof the ITSZ -- 2.3. The Indus suture zone of the Eastern Ladakh, the Nidar zone -- 2.3.1. The Indus group sediments -- 2.3.2. The Nidar ophiolite -- 2.3.3. The accretionary wedge or oceanic mélange -- 2.4.Conclusion -- 2.5.References -- Chapter 3. Geological Evolution of the Tethys Himalaya -- 3.1. Introduction -- 3.2.The stratigraphyof theTethysHimalaya -- 3.2.1.The pre-Tethyanhistory -- 3.2.2.TheNeotethyanrift stage -- 3.2.3.TheNeotethyandrift stage -- 3.2.4. The Paleocene-Eocene collision stage -- 3.3.Deformationof theTethysHimalaya -- 3.3.1.Deformation and metamorphismof the Tethys Himalaya in Dolpo (WesternNepal).
3.3.2. Deformation and metamorphism of the Tethys Himalaya inLadakh(NWIndia) -- 3.4.Conclusion -- 3.5.References -- Part 2. Greater Himalayan Crystalline Complex -- Chapter 4. High-Pressure and Ultra-High-Pressure Units in the Himalaya -- 4.1. Introduction -- 4.2. High pressure rocks in the suture zone (witnesses of the oceanic subduction) -- 4.2.1. The Shapi-Shergol blueschists (Ladakh) -- 4.2.2.TheShanglaBlueschists (Pakistan) -- 4.2.3.TheSangsangBlueschist -- 4.2.4. The Indo-Burmese Blueschists -- 4.3. Continental high-pressure (HP) to ultra-high-pressure (UHP) metamorphism of the Indian margin (continental subduction) located next to the Indus Tsangpo Suture Zone -- 4.3.1.TheKaghanunit -- 4.3.2.TheTsoMorariUHPunit -- 4.3.3. Other HP metamorphosed unit south of suture zone in the Indian continentalmargin -- 4.4. Oligocene-Miocene high-pressure, high-temperature metamorphism eclogite with granulite overprint far from the suture zone -- 4.5.Conclusion -- 4.6.References -- Chapter 5. The Greater Himalayan Sequence - Tectonic, Petrographic and Kinematic Evolution of the Metamorphic Core Zone of the Himalayan Orogeny -- 5.1. Introduction -- 5.2. Tectono-metamorphic evolution of the GHS in the central part of the Himalaya inNepal -- 5.3. Tectono-metamorphic evolution of the GHS in the north-western part of the Indian Himalaya in Himachal Pradesh and Ladakh -- 5.3.1. Metamorphism and deformation in the High Himalayan Crystalline Zone of Zanskar -- 5.3.2. Timing of crustal shortening and metamorphism along the Miyar ShearZone -- 5.3.3. Kinematic and tectonothermal evolution of the High Himalayan Crystalline Zone of Zanskar -- 5.4.Conclusion -- 5.5.References -- Chapter 6. Oligo-Miocene Exhumation of the Metamorphic Core Zone of the Himalaya Across the Range -- 6.1. Introduction -- 6.2.CentralHimalaya -- 6.3.NorthWest India -- 6.4.Conclusion.
6.5.References -- Part 3. Lesser and Sub Himalayan Sequence -- Chapter 7. Lithostratigraphy, Petrography and Metamorphism of the Lesser Himalayan Sequence -- 7.1. Introduction -- 7.2.Lithostratigraphyand petrography -- 7.2.1.Lower-LHS -- 7.2.2.Upper-LHS -- 7.2.3.Meta-igneous rocks -- 7.2.4. Along-strike variation in the LHS lithostratigraphy -- 7.3.Metamorphism -- 7.3.1.Lower-LHS -- 7.3.2.Upper-LHS -- 7.3.3.Tectonic implications -- 7.4.Conclusion -- 7.5.References -- Chapter 8. Sedimentary and Structural Evolution of the Himalayan Foreland Basin -- 8.1. Introduction -- 8.2. Overall geometry of the outer Himalayan domain -- 8.2.1.Forelandbasin geometry -- 8.2.2. Incorporation of the foreland basin into the range: a typical thin-skinnedthrust belt structure -- 8.3.Themain forelandsediments features -- 8.3.1. Present-day foothill sediments and morphology -- 8.3.2. Sedimentary facies of the Neogene Siwalik foreland basin deposits -- 8.3.3.Evolutionof sources -- 8.3.4. Evolution of environmental conditions -- 8.4. Evolution of the outer Himalayan domain: geodynamics and external processes control -- 8.4.1. Critical tectonic wedge, tectonic and surface processes velocity -- 8.4.2. Processes controlling the evolution of the foreland basin -- 8.5.Conclusion -- 8.6.References -- Conclusion -- List of Authors -- Index -- Summaries of other volumes -- EULA.
Record Nr. UNINA-9910830528303321
London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Himalaya, dynamics of a giant 1 : Geodynamic setting of the Himalayan range / / Rodolphe Cattin, Jean-Luc Epard
Himalaya, dynamics of a giant 1 : Geodynamic setting of the Himalayan range / / Rodolphe Cattin, Jean-Luc Epard
Edizione [First edition.]
Pubbl/distr/stampa London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023]
Descrizione fisica 1 online resource (301 pages)
Disciplina 915.49604
Soggetto non controllato Geophysics
Geology
Science
ISBN 1-394-22858-9
1-394-22856-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright Page -- Contents -- Tributes -- Foreword -- Preface. From Research to Education: The Example of the Seismology at School in Nepal Program -- Part 1. Tectonic Framework of the Himalaya and Tibet -- Chapter 1. Plate Reconstructions and Mantle Dynamics Leading to the India-Asia Collision -- 1.1. Introduction -- 1.2. The India-Asia convergence and the age of the collision -- 1.2.1.The India-Asia convergence -- 1.2.2. The age of the India-Asia collision -- 1.3. Plate collision configurations -- 1.3.1. Reconstructing lost continental margins -- 1.3.2. Alternative collision configurations -- 1.4. Reconstruction of the Neotethys Ocean closure dynamic -- 1.4.1. Number of subduction accommodating the Neotethys closure -- 1.4.2. Location of the Intraoceanic subduction zone and associated arc -- 1.4.3. Driving forces of the India-Asia convergence during Neotethys closure -- 1.5.Conclusion -- 1.6.References -- Chapter 2. Building the Tibetan Plateau During the Collision Between the India and Asia Plates -- 2.1. Introduction -- 2.2.Present-dayTibetan crustal deformation -- 2.2.1. GPS velocity field and focal mechanisms in Tibet -- 2.2.2. Surface motions and deformation due to Indian indentation -- 2.3. Tibetan lithospheric mantle subduction during collision -- 2.3.1. Imaging ongoing subduction beneath Tibet -- 2.3.2. Imaging subduction of lithospheric Tibetan mantle during the collision -- 2.3.3. Volcanism in Tibet showing the subduction of lithospheric Asian mantle during the early collision -- 2.4. Modeling the Tibetan plateau formation during the indentation of the Indiancontinent intoAsia -- 2.4.1. Analogue modeling of the Tibetan lithosphere subduction duringthe indentationof India -- 2.4.2. Numerical modeling of Asian thickening and extrusion during the subduction of a continental-oceanic plate -- 2.5.Conclusion.
2.6.References -- Chapter 3. The Major Thrust Faults and Shear Zones -- 3.1. Introduction -- 3.2.Some basic concepts -- 3.3.Main faults andshear zones -- 3.3.1. South Tibetan detachment system (STDS) -- 3.3.2.MainCentral thrust (MCT) -- 3.3.3. Main Boundary thrust (MBT) -- 3.3.4.MainFrontal thrust (MFT) -- 3.3.5. Main Himalayan thrust (MHT), continental megathrust -- 3.4.Tectonicmodels -- 3.4.1. Fold-and-thrust belt versus channel flow -- 3.4.2.Coeval slip along theSTDSand theMCT -- 3.5.Conclusion -- 3.6.References -- Part 2. Along Strike Variations -- Chapter 4. Seismological Imaging and Current Seismicity of the Himalayan Arc -- 4.1. Introduction -- 4.2. Imagingby elasticwaves -- 4.2.1.Active seismics -- 4.2.2.Passive seismics -- 4.2.3. Tomographic imaging for bulk properties -- 4.2.4.Wave reflections and conversions for interfaces -- 4.3. Exploring the Central Himalaya along cross-sections -- 4.3.1.Field experiments -- 4.3.2. Main interfaces -- 4.3.3.Where do subducted plates go? -- 4.4.Lateral variations -- 4.4.1. Lateral ramps on the MHT, along-arcMoho variations -- 4.4.2. Segmentation of the India plate lithosphere -- 4.4.3.Thewestern andeastern syntaxes -- 4.5.Current seismicity of theHimalaya -- 4.5.1. Earthquake detection, location and activity -- 4.5.2. Seismicity of the Himalaya: an incomplete patchwork -- 4.5.3.Seismicity of theHimalaya:main features -- 4.6.Conclusion -- 4.7.References -- Chapter 5. Gravity Observations and Models Along the Himalayan Arc -- 5.1. Introduction -- 5.2. Methods -- 5.2.1. Measurements -- 5.2.2.Corrections -- 5.2.3.Anomalies -- 5.3. Isostasy -- 5.3.1.Local compensation -- 5.3.2.Regional compensation -- 5.3.3.Effectiveelastic thickness -- 5.4.Flexure of the Indianplate -- 5.4.1. Gravity anomaly across the Himalayan belt -- 5.4.2. Along-strike variation between Nepal and Bhutan -- 5.5. Satellite data contribution.
5.5.1.Gravitymeasurements fromspace -- 5.5.2. Towards a three-dimensional image -- 5.6.Conclusion -- 5.7.References -- Chapter 6. Topographic and Thermochronologic Constraints on the Himalayan Décollement Geometry -- 6.1. Introduction -- 6.2. Methods -- 6.2.1. Quantitative geomorphic analysis -- 6.2.2. Measures of erosion at different timescales: cosmogenic nuclides and thermochronology -- 6.2.3. From exhumation to kinematics: thermo-kinematic models -- 6.3.Regional case studies -- 6.3.1.CentralHimalaya-Nepal -- 6.4.Discussion -- 6.4.1. Constraints on MHT geometry and kinematics at different timescales -- 6.4.2.Nature and evolutionof rampson theMHT -- 6.4.3. Evidence for out-of-sequence thrusting? -- 6.4.4.Lateral segmentationof theMHT -- 6.5.Conclusion -- 6.6.References -- Part 3. Focus -- Chapter 7. Application of Near-surface Geophysical Methods for Imaging Active Faults in the Himalaya -- 7.1. Introduction -- 7.2. Near-surface geophysics -- 7.2.1. Geophysical methods for fault mapping -- 7.2.2. Case study data and inversion technique -- 7.3. Geophysical results of case study from south Bhutan -- 7.3.1.Electrical resistivity tomography -- 7.3.2.Seismic tomography -- 7.3.3.Micro-gravity -- 7.4. Implications of near-surface geophysical findings -- 7.4.1.Subsurface imaging -- 7.4.2.Overthrustingslip rate assessment -- 7.4.3. Deformation at the topographic front -- 7.5.Conclusion -- 7.6.References -- Chapter 8. Overview of Hydrothermal Systems in the Nepal Himalaya -- 8.1. Introduction -- 8.2. Measurement methods -- 8.2.1.Explorationapproach -- 8.2.2.Thermal springwatermeasurements -- 8.2.3. CO2 flux and radonfluxmeasurements -- 8.2.4. Carbon content and isotopic composition measurements -- 8.3. Summary of results at the hydrothermal sites in the Nepal Himalaya -- 8.3.1. Overview of hydrothermal sites in Far-Western Nepal.
8.3.2. Overview of hydrothermal sites in Mid-Western Nepal -- 8.3.3. Overview of hydrothermal sites in Western Nepal -- 8.3.4. Overview of hydrothermal sites in Central Nepal -- 8.3.5. Overview of hydrothermal sites in Eastern Nepal -- 8.3.6. Overview of hydrothermal sites in the MFT zone -- 8.4.Conclusion -- 8.5.References -- Conclusion -- Rodolphe CATTIN and Jean-Luc EPARD of Authors -- Index -- Summaries of other volumes -- EULA.
Record Nr. UNINA-9910735567003321
London, England : , : ISTE Ltd and John Wiley & Sons, Inc., , [2023]
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