Verfügbarkeit: Electromagnetic sounding of the earth's interior

Electromagnetic sounding of the earth's interior:

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Bibliographische Detailangaben
1. Verfasser:	Spichak, Viacheslav V. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2007
Ausgabe:	1. ed.
Schriftenreihe:	Methods in geochemistry and geophysics 40
Schlagworte:	Elektromagnetische Messung Erdinneres Konferenzschrift > 2003 > Moskau
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 388 S. Ill., graph. Darst.
ISBN:	0444529381 9780444529381

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Datensatz im Suchindex

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adam_text	METHODS IN GEOCHEMISTRY AND GEOPHYSICS, 40 ELECTROMAGNETIC SOUNDING OF THE EARTH S INTERIOR EDITED BY VIACHESLAV V. SPICHAK GEOELECTROMAGNETIC RESEARCH CENTER IPE RAS TROITSK, MOSCOW REGION, RUSSIA ELSEVIER AMSTERDAM - BOSTON - HEIDELBERG - LONDON - NEW YORK - OXFORD - PARIS SAN DIEGO - SAN FRANCISCO - SINGAPORE - SYDNEY - TOKYO CONTENTS PREFACE XIII PART I: EM SOUNDING METHODS CHAPTER 1 GLOBAL 3-D EM INDUCTION IN THE SOLID EARTH AND THE OCEANS A. V. KUVSHINOV 1.1. FORWARD PROBLEM FORMULATION 4 1.2. BASIC 3-D EARTH CONDUCTIVITY MODEL 5 1.3. OCEAN EFFECT IN S Q VARIATIONS 7 1.4. OCEAN EFFECT OF GEOMAGNETIC STORMS 9 1.5. MAGNETIC FIELDS DUE TO OCEAN TIDES 13 1.6. MAGNETIC FIELDS DUE TO OCEAN CIRCULATION 16 1.7. MAPPING CONDUCTIVITY ANOMALIES IN THE EARTH S MANTLE FROM SPACE 18 1.8. CONCLUSIONS 21 REFERENCES 21 CHAPTER 2 MAGNETOVARIATIONAL METHOD IN DEEP GEOELECTRICS M.N. BERDICHEVSKY, V.I. DMITRIEV, N.S. GOLUBTSBVA, N .A. MERSHCHIKOVA AND P. YU. PUSHKAREV 2.1. INTRODUCTION 27 2.2. ON INTEGRATED INTERPRETATION OF MV AND MT DATA 30 2.3. MODEL EXPERIMENTS 33 2.4. MV-MT STUDY OF THE CASCADIAN SUBDUCTION ZONE (EMSLAB EXPERIMENT) 38 REFERENCES 51 CHAPTER 3 SHALLOW INVESTIGATIONS BY TEM-FAST TECHNIQUE: METHODOLOGY AND EXAMPLES P. O. BARSIIKOV, E. B: FAINBERG AND E. O. KHABENSKY 3.1. INTRODUCTION 55 3.2. ADVANTAGES OF TEM IN SHALLOW DEPTH STUDIES 56 3.3. ON THE TEM-FAST TECHNOLOGY 57 VI CONTENTS 3.4. TRANSFORMATION OF E(T) DATA INTO P(H) 59 3.5. ONE-DIMENSIONAL INVERSION AND TEM-FAST S RESOLUTION 61 3.6. JOINT INVERSION OF TEM AND DC SOUNDINGS 63 3.7. SIDE EFFECTS IN TEM SOUNDING 67 3.7.1. SUPERPARAMAGNETIC EFFECT IN TEM 68 3.7.2. EFFECT OF INDUCED POLARIZATION 71 3.7.3. ANTENNA POLARIZATION EFFECT (APE) 73 REFERENCES 76 CHAPTER 4 SEISMOELECTRIC METHODS OF EARTH STUDY B.S. SVETOV 4.1. SEISMOELECTRIC EFFECT OF THE FIRST KIND 79 4.2. SEISMOELECTRIC EFFECT OF THE SECOND KIND: HISTORICAL OUTLINE AND ELEMENTS OF THEORY 80 4.3. PHYSICAL INTERPRETATION OF SEISMOELECTRIC PHENOMENA 83 4.4. MODELING OF SEISMOELECTRIC FIELDS 86 4.5. LABORATORY STUDIES OF SEISMOELECTRIC EFFECTS ON ROCK SAMPLES 90 4.6. EXPERIMENTAL FIELD AND BOREHOLE SEISMOELECTRIC STUDIES 96 REFERENCES 100 PART II: FORWARD MODELING AND INVERSION TECHNIQUES CHAPTER 5 3-D EM FORWARD MODELING USING BALANCE TECHNIQUE V. V. SPICHAK AND M.S. ZHDANOV 5.1. MODERN APPROACHES TO THE FORWARD PROBLEM SOLUTION 106 5.1.1. METHODS OF INTEGRAL EQUATIONS 106 5.1.1.1. THE METHOD OF VOLUME INTEGRAL EQUATIONS (VIE) 107 5.1.1.2. THE METHOD OF SURFACE INTEGRAL EQUATIONS 108 5.1.2. METHODS OF DIFFERENTIAL EQUATIONS 109 5.1.2.1. THE FD TECHNIQUE 109 5.1.2.2. THE FE TECHNIQUE 111 5.1.3. MIXED APPROACHES 112 5.1.4. ANALOG (PHYSICAL) MODELING APPROACHES 114 5.2. BALANCE METHOD OF EM FIELDS COMPUTATION IN MODELS WITH ARBITRARY CONDUCTIVITY DISTRIBUTION 116 5.2.1. STATEMENT OF THE PROBLEM 116 5.2.2. CALCULATION OF THE ELECTRIC FIELD 117 5.2.2.1. EQUATIONS AND BOUNDARY CONDITIONS 117 5.2.2.2. DISCRETIZATION SCHEME 118 5.2.3. CALCULATION OF THE MAGNETIC FIELD 120 CONTENTS VII 5.2.4. CONTROLLING THE ACCURACY OF THE RESULTS 121 5.2.4.1. CRITERIA FOR ACCURACY _ . 121 5.2.4.2. COMPARISON WITH HIGH-FREQUENCY ASYMPTOTIC SOLUTION 122 5.2.4.3. COMPARISON WITH RESULTS OBTAINED BY OTHER TECHNIQUES 123 5.3. METHOD OF THE EM FIELD COMPUTATION IN AXIALLY SYMMETRIC MEDIA 124 5.3.1. PROBLEM STATEMENT 124 5.3.2. BASIC EQUATIONS 125 5.3.3. BOUNDARY CONDITIONS 127 5.3.4. DISCRETE EQUATIONS AND THEIR NUMERICAL SOLUTION 127 5.3.4.1. DISCRETE EQUATIONS 127 5.3.4.2. BASIS FUNCTIONS 129 5.3.4.3. NUMERICAL SOLUTION OF DISCRETE EQUATIONS 129 5.3.5. CODE TESTING 131 REFERENCES 134 CHAPTER 6 3-D EM FORWARD MODELING USING INTEGRAL EQUATIONS D.B. AVDEEV 6.1. INTRODUCTION 143 6.2. VOLUME INTEGRAL EQUATION METHOD 144 6.2.1. TRADITIONAL IE METHOD 145 6.2.1.1. COMPARISON WITH OTHER METHODS 146 6.2.1.2. STRAIGHTFORWARD SOLUTION 146 6.2.1.3. NEUMANN SERIES 146 6.2.2. MODIFIED ITERATIVE DISSIPATIVE METHOD 147 6.2.2.1. KRYLOV SUBSPACE INTERATION 149 6.3. MODEL EXAMPLES 151 6.3.1. INDUCTION LOGGING PROBLEM 151 6.3.2. AIRBORNE EM EXAMPLE 152 6.4. CONCLUSION 152 REFERENCES 152 CHAPTER 7 INVERSE PROBLEMS IN MODERN MAGNETOTELLURICS V. I. DMITRIEV AND M. N. BERDICHEVSKY 7.1. THREE FEATURES OF MULTI-DIMENSIONAL INVERSE PROBLEM 159 7.1.1. NORMAL BACKGROUND 159 7.1.2. ON DETAILNESS OF MULTI-DIMENSIONAL INVERSION 162 7.1.3. ON REDUNDANCY OF OBSERVATION DATA 162 7.2. THREE QUESTIONS OF HADAMARD 163 7.2.1. ON THE EXISTENCE OF A SOLUTION TO THE INVERSE PROBLEM 164 7.2.2. ON THE UNIQUENESS OF THE SOLUTION TO THE INVERSE PROBLEM 164 7.2.3. ON THE INSTABILITY OF THE INVERSE PROBLEM 172 VLLL CONTENTS 7.3. MT AND MV INVERSIONS IN THE LIGHT OF TIKHONOV S THEORY OF ILL-POSED PROBLEMS 175 7.3.1. CONDITIONALLY WELL-POSED FORMULATION OF INVERSE PROBLEM 175 7.3.2. OPTIMIZATION METHOD 177 7.3.3. REGULARIZATION METHOD 178 REFERENCES 183 CHAPTER 8 JOINT ROBUST INVERSION OF MAGNETOTELLURIC AND MAGNETOVARIATIONAL DATA IV.M. VARENTSOV 8.1. ADAPTIVE PARAMETERIZATION OF A GEOELECTRIC MODEL 186 8.1.1. A BACKGROUND STRUCTURE AND WINDOWS TO SCAN ANOMALIES 186 8.1.2. A PRIORI MODEL STRUCTURE AND CONSTRAINS 186 8.1.3. WINDOW WITH CORRELATED RESISTIVITIES OF INVERSION CELLS 187 8.1.4. WINDOW WITH FINITE FUNCTIONS 187 8.2. INVERTED AND MODELING DATA 188 8.3. INVERSION AS A MINIMIZATION PROBLEM 190 8.3.1. MINIMIZING FUNCTIONAL 190 8.3.2. ROBUST MISFIT METRIC 191 8.3.3. CYCLES OF TIKHONOV S MINIMIZATION 192 8.3.4. NEWTONIAN MINIMIZATION TECHNIQUES 192 8.3.5. SOLUTION OF LINEAR NEWTONIAN SYSTEM AND CHOICE OF SCALAR NEWTONIAN STEP 194 8.3.6. MULTI-LEVEL ADAPTIVE STABILIZATION 195 8.3.7. POST-INVERSION ANALYSIS 196 8.4. STUDY OF INVERSION ALGORITHMS USING SYNTHETIC DATASETS 197 8.4.1. COMPARISON OF THREE MODEL PARAMETERIZATION SCHEMES IN 2-D INVERSION 197 8.4.2. 2-D INVERSION WITH NUMEROUS FINITE FUNCTIONS 205 8.4.3. 3-D INVERSION EXAMPLE 209 8.4.4. RESOLUTION OF A SYSTEM OF LOCAL CONDUCTORS USING THE CR-PARAMETERIZATION 211 8.4.5. REDUCTION OF STRONG DATA NOISE AND STATIC SHIFTS 213 8.5. CONCLUSIONS 215 REFERENCES 216 CHAPTER 9 NEURAL NETWORK RECONSTRUCTION OF MACRO-PARAMETERS OF 3-D GEOELECTRIC STRUCTURES V.V. SPICHAK 9.1. BACKPROPAGATION TECHNIQUE 220 9.2. CREATION OF TEACHING AND TESTING DATA POOLS 223 9.3. EFFECT OF THE EM DATA TRANSFORMATIONS ON THE QUALITY OF THE PARAMETERS RECOGNITION 224 9.3.1. TYPES OF THE ACTIVATION FUNCTION AT HIDDEN AND OUTPUT LAYERS 225 9.3.2. NUMBER OF THE NEURONS IN A HIDDEN LAYER 227 CONTENTS IX 9.3.3. EFFECT OF AN EXTRA HIDDEN LAYER 229 9.3.4. THRESHOLD LEVEL - - * 229 9.4. EFFECT OF THE INPUT DATA TYPE 229 9.5. EFFECT OF THE VOLUME AND STRUCTURE OF THE TRAINING DATA POOL 232 9.5.1. EFFECT OF SIZE 232 9.5.2. EFFECT OF STRUCTURE 233 9.5.2.1. RANDOM SELECTION OF SYNTHETIC DATA SAMPLE 234 9.5.2.2. GAPS IN THE TRAINING DATA BASE 234 9.5.2.3. NO TARGET CASE 236 9.6. EXTRAPOLATION ABILITY OF ANN 238 9.7. NOISE TREATMENT 239 9.8. CASE HISTORY: ANN RECONSTRUCTION OF THE MINOU FAULT PARAMETERS 242 9.8.1. GEOLOGICAL AND GEOPHYSICAL SETTING 242 9.8.2. CSAMT DATA ACQUISITION AND PROCESSING 243 9.8.3. 3-D IMAGING MINOU FAULT ZONE USING 1-D AND 2-D INVERSION 245 9.8.3.1. SYNTHESIS OF BOSTICK TRANSFORMS 245 9.8.3.2. 2-D INVERSION RESULTS 246 9.8.4. ANN RECONSTRUCTION OF THE MINOU GEOELECTRIC STRUCTURE 247 9.8.4.1. ANN RECOGNITION IN TERMS OF MACRO-PARAMETERS 250 9.8.4.2. TESTING ANN INVERSION RESULTS 251 9.8.5. DISCUSSION AND CONCLUSIONS 252 REFERENCES 253 PART III: DATA PROCESSING, ANALYSIS, MODELING AND INTERPRETATION CHAPTER 10 ARRAYS OF SIMULTANEOUS ELECTROMAGNETIC SOUNDINGS: DESIGN, DATA PROCESSING AND ANALYSIS IV.M. VARENTSOV 10.1. SIMULTANEOUS SYSTEMS FOR NATURAL EM FIELDS OBSERVATION 259 10.2. MULTI-SITE SCHEMES FOR ESTIMATION OF TRANSFER OPERATORS 262 10.3. TEMPORAL STABILITY OF TRANSFER OPERATORS 264 10.4. METHODS FOR THE ANALYSIS AND INTERPRETATION OF SIMULTANEOUS EM DATA 266 10.5. CONCLUSIONS 270 REFERENCES 271 CHAPTER 11 MAGNETOTELLURIC FIELD TRANSFORMATIONS AND THEIR APPLICATION IN INTERPRETATION V. V. SPICHAK 11.1. LINEAR RELATIONS BETWEEN MT FIELD COMPONENTS 276 11.2. POINT TRANSFORMS OF MT DATA 277 X CONTENTS 11.2.1. IMPEDANCE TRANSFORMS 277 11.2.2. APPARENT RESISTIVITY TYPE TRANSFORMS 285 11.2.3. INDUCTION AND PERTURBATION VECTORS 287 11.3. EXAMPLES OF THE USE OF MT FIELD POINT TRANSFORMS FOR THE INTERPRETATION 291 11.3.1. DIMENSIONALITY INDICATORS 291 11.3.2. LOCAL AND REGIONAL ANOMALIES 292 11.3.3. CONSTRUCTING RESISTIVITY IMAGES IN THE ABSENCE OF PRIOR INFORMATION 293 11.4. INTEGRAL TRANSFORMS 298 11.4.1. DIVISION OF THE MT FIELD INTO PARTS 298 11.4.2. TRANSFORMATION OF THE FIELD COMPONENTS INTO EACH OTHER 302 11.4.3. SYNTHESIS OF SYNCHRONOUS MT FIELD FROM IMPEDANCES AND INDUCTION VECTORS 303 11.4.3.1 MAGNETIC FIELD SYNTHESIS FROM KNOW IMPEDANCE 304 11.4.3.2 MAGNETIC FIELD SYNTHESIS FROM KNOWN TIPPER 304 REFERENCES 305 CHAPTER 12 MODELING OF MAGNETOTELLURIC FIELDS IN 3-D MEDIA V. V. SPICHAK 12.1. A FEASIBILITY STUDY OF MT METHOD APPLICATION IN HYDROCARBON EXPLORATION 314 12.1.1. STATEMENT OF THE PROBLEM 315 12.1.2. NUMERICAL MODELING 315 12.2. TESTING HYPOTHESES OF THE GEOELECTRIC STRUCTURE OF THE TRANSCAUCASIAN REGION FROM MT DATA * 321 12.2.1. GEOLOGICAL AND GEOPHYSICAL CHARACTERISTICS OF THE REGION 321 12.2.2. ALTERNATIVE CONDUCTIVITY MODELS 324 12.2.3. NUMERICAL MODELING OF MAGNETOTELLURIC FIELDS 325 12.2.4. CONCLUSIONS . 330 12.3. MT IMAGING INTERNAL STRUCTURE OF VOLCANOES 331 12.3.1. SIMPLIFIED MODEL OF THE VOLCANO 331 12.3.2. SYNTHETIC MT PSEUDOSECTIONS 332 12.3.3. METHODOLOGY OF INTERPRETATION OF THE MT DATA MEASURED OVER THE RELIEF SURFACE 335 12.4. SIMULATION OF MT MONITORING OF THE MAGMA CHAMBER CONDUCTIVITY 338 12.4.1. GEOELECTRIC MODEL OF A CENTRAL TYPE VOLCANO 338 12.4.2. DETECTION OF THE MAGMA CHAMBER BY MT DATA 338 12.4.3. ESTIMATION OF MT DATA RESOLVING POWER WITH RESPECT TO THE CONDUCTIVITY VARIATIONS IN THE MAGMA CHAMBER 340 12.4.4. GUIDELINES FOR MT MONITORING ELECTRIC CONDUCTIVITY IN A MAGMA CHAMBER 343 12.5. SIMULATION OF MT MONITORING THE GROUND WATER SALINITY 344 12.5.1. STATEMENT OF THE PROBLEM 344 12.5.1.1 THE DATA 346 12.5.1.2 PRIOR INFORMATION 346 12.5.2. MODELING OF THE SALT WATER INTRUSION ZONE MAPPING BY AUDIO-MT DATA 347 REFERENCES 348 CONTENTS XI CHAPTER 13 REGIONAL MAGNETOTELLURIC EXPLORATIONS IN RUSSIA V.P. BUBNOV, A.G. YAKOVLEV, E.D. ALEKSANOVA, D.V. YAKOVLEV, M.N. BERDICHEVSKY AND P. YU. PUSHKAREV 13.1. INTRODUCTION 351 13.2. OBSERVATION TECHNOLOGY 353 13.3. MT-DATA PROCESSING, ANALYSIS AND INTERPRETATION 354 13.4. CASE HISTORIES 356 13.4.1. EAST-EUROPEAN CRATON 356 13.4.2. CAUCASUS, THE URALS, SIBERIA, AND NORTH EAST RUSSIA 360 13.5. CONCLUSION 366 REFERENCES 366 CHAPTER 14 EM STUDIES AT SEAS AND OCEANS N.A. PALSHIN 14.1. CONDUCTIVITY STRUCTURE OF SEA AND OCEAN FLOOR 370 14.1.1. BACKGROUND CONDUCTIVITY STRUCTURE OF THE OCEAN CRUST AND UPPER MANTLE 370 14.1.2. PRINCIPLE OBJECTIVES OF MARINE EM STUDIES 370 14.2. INSTRUMENTATION FOR MARINE EM STUDIES 371 14.2.1. SEAFLOOR CONTROLLED SOURCE FREQUENCY AND TRANSIENT EM SOUNDING 371 14.2.2. MEASUREMENTS OF VARIATIONS OF NATURAL EM FIELDS ON THE SEAFLOOR 373 14.3. SOME RESULTS OF EM SOUNDING IN SEAS AND OCEANS 375 14.3.1. STUDIES OF GAS HYDRATES IN SEABED SEDIMENTS OF CONTINENTAL SLOPES 376 14.3.2. STUDIES OF BURIED SALT DOME-LIKE STRUCTURES 377 14.3.3. THE REYKJANES AXIAL MELT EXPERIMENT: STRUCTURAL SYNTHESIS FROM ELECTROMAGNETICS AND SEISMICS (RAMESSES PROJECT) 377 14.3.4. SEAFLOOR MT SOUNDINGS OF THE EASTERN-PACIFIC RISE AT 950 N 378 14.3.5. MANTLE ELECTROMAGNETIC AND TOMOGRAPHY EXPERIMENT 379 14.4. DEEP SEAFLOOR EM STUDIES IN THE NORTHWESTERN PACIFIC 380 REFERENCES 382 SUBJECT INDEX 385
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publisher	Elsevier
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series	Methods in geochemistry and geophysics
series2	Methods in geochemistry and geophysics
spelling	Spichak, Viacheslav V. Verfasser (DE-588)110161563X aut Electromagnetic sounding of the earth's interior ed. by Viacheslav V. Spichak 1. ed. Amsterdam [u.a.] Elsevier 2007 XVI, 388 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Methods in geochemistry and geophysics 40 Elektromagnetische Messung (DE-588)4342450-8 gnd rswk-swf Erdinneres (DE-588)4152673-9 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 2003 Moskau gnd-content Erdinneres (DE-588)4152673-9 s Elektromagnetische Messung (DE-588)4342450-8 s DE-188 Erscheint auch als Online-Ausgabe 978-0-08-046686-6 0-08-046686-9 (DE-604)BV042309349 Methods in geochemistry and geophysics 40 (DE-604)BV001889852 40 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018335552&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Spichak, Viacheslav V. Electromagnetic sounding of the earth's interior Methods in geochemistry and geophysics Elektromagnetische Messung (DE-588)4342450-8 gnd Erdinneres (DE-588)4152673-9 gnd
subject_GND	(DE-588)4342450-8 (DE-588)4152673-9 (DE-588)1071861417
title	Electromagnetic sounding of the earth's interior
title_auth	Electromagnetic sounding of the earth's interior
title_exact_search	Electromagnetic sounding of the earth's interior
title_full	Electromagnetic sounding of the earth's interior ed. by Viacheslav V. Spichak
title_fullStr	Electromagnetic sounding of the earth's interior ed. by Viacheslav V. Spichak
title_full_unstemmed	Electromagnetic sounding of the earth's interior ed. by Viacheslav V. Spichak
title_short	Electromagnetic sounding of the earth's interior
title_sort	electromagnetic sounding of the earth s interior
topic	Elektromagnetische Messung (DE-588)4342450-8 gnd Erdinneres (DE-588)4152673-9 gnd
topic_facet	Elektromagnetische Messung Erdinneres Konferenzschrift 2003 Moskau
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018335552&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV001889852
work_keys_str_mv	AT spichakviacheslavv electromagneticsoundingoftheearthsinterior

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