Models and methods of magnetotellurics:
Gespeichert in:
| Hauptverfasser: | , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin, Heidelberg
Springer
2008
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturverzeichnis S. 547 - 559 |
| Beschreibung: | XXV, 563 Seiten Diagramme |
| ISBN: | 9783540778110 9783540778141 |
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| 100 | 1 | |a Berdičevskij, Mark N. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Models and methods of magnetotellurics |c Mark N. Berdichevsky ; Vladimir I. Dmitriev |
| 264 | 1 | |a Berlin, Heidelberg |b Springer |c 2008 | |
| 300 | |a XXV, 563 Seiten |b Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Literaturverzeichnis S. 547 - 559 | ||
| 650 | 0 | 7 | |a Magnetotellurik |0 (DE-588)4168603-2 |2 gnd |9 rswk-swf |
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| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Dmitriev, Vladimir I. |e Verfasser |4 aut | |
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Datensatz im Suchindex
| _version_ | 1804138831281127424 |
|---|---|
| adam_text | Contents
Part I Magnetotelluric and Magnetovariational Response Functions
1 The Magnetotelluric Response Functions ......................... 3
1.1 On the Deterministic Nature of the Impedadance Tensor......... 3
1.2 Rotation of the Impedance Tensor............................ 13
1.3 Dimensionality of the Impedance Tensor...................... 16
1.3.1 The One-Dimensional Impedance Tensor.............. 17
1.3.2 The Two-Dimensional Impedance Tensor.............. 21
1.3.3 The Three-Dimensional Impedance Tensor............. 24
1.3.4 The Superimposition Impedance Tensor............... 25
1.4 Impedance Polar Diagrams.................................. 31
1.4.1 Polar Diagrams of the Impedance Tensor.............. 31
1.4.2 Polar Diagrams of H- and E-Polarized Impedances...... 33
1.5 Dispersion Relations in the Impedance Tensor.................. 37
1.6 On the Magnetotelluric Anomalies........................... 45
2 The Impedance Eigenstate Problem.............................. 53
2.1 The Classical Formulation of the Tensor Eigenstate Problem ..... 53
2.2 Polarization of the Magnetotelluric Field...................... 55
2.3 Basic Approaches to the Impedance Eigenstate Problem......... 61
2.4 The Swift-Sims-Bostick Method............................ 62
2.5 The Swift-Eggers Method.................................. 64
2.6 The La Torraca-Madden-Korringa Method.................... 69
2.7 Final Remarks on the Impedance Eigenstate Problem............ 77
3 Separation of the Local and Regional Magnetotelluric Effects....... 83
3.1 Using the Local-Regional Decomposition ..................... 83
3.2 The Bahr and Groom-Bailey Methods ........................ 84
3.2.1 The Bahr Method.................................. 84
3.2.2 The Groom-Bailey Method.......................... 91
3.2.3 Final Remarks on the Bahr and Groom-Bailey Methods .. 94
3.3 The Zhang-Roberts-Pedersen Method.........................101
x Contents
3.4 The Chave-Smith Method...................................105
3.5 The Caldwell-Bibby-Brown Method..........................109
3.5.1 The Phase Tensor..................................109
3.5.2 Polar Diagrams of the Phase Tensor...................112
3.5.3 The Phase-Tensor Eigenstate Problem.................114
4 The Magnetovariational Response Functions......................119
4.1 The Wiese-Parkinson Matrix................................119
4.1.1 Rotation of the Wiese-Parkinson Matrix...............122
4.1.2 Dispersion Relations in the Wiese-Parkinson Matrix.....123
4.2 Vector Representation of the Wiese-Parkinson Matrix...........125
4.2.1 The Wiese-Parkinson Tipper Technique...............125
4.2.2 The Vozoff Tipper Technique........................128
4.3 Polar Diagrams of the Wiese-Parkinson Matrix ................134
4.4 Magnetic Tensors..........................................136
4.4.1 The Horizontal Magnetic Tensor.....................136
4.4.2 The Schmucker Tensor .............................142
4.5 Magnetovariational Response Functions in the Superimposition
Model...................................................143
4.5.1 The Zhang-Pedersen-Mareschal-Chouteau Method.....146
4.5.2 The Ritter-Banks Method...........................146
4.5.3 The Berdichevsky-Kuznetsov Method ................147
4.6 Magnetic Perturbation Ellipses ..............................152
5 The Recent Developments.......................................155
5.1 Advancement of the Plane-Wave Model.......................155
5.1.1 Analysis of the Normal Magnetotelluric Field..........156
5.1.2 MT and MV Response Functions in the Absence
of the Source Effect ............................... 161
5.1.3 The Source Effect..................................163
5.1.4 Final Remarks on the Generalized Impedance Tensor .... 166
5.2 Synthesis of the Magnetotelluric Field........................166
5.2.1 Anomalous Magnetotelluric Field in the Air............167
5.2.2 Synthesis of the Magnetic Field from the Impedance
Tensors.......................................... 171
5.2.3 Synthesis of the Magnetic Field from the Tippers .......174
5.2.4 Synthesis of the Magnetic Field from the Generalized
Impedance Tensors................................ 177
5.2.5 Model Experiments on the Synthesis of the Magnetic Field 179
Part II Basic Models of the Distortion Theory
6 Two Classic Models of the Distortion Theory......................185
6.1 The Vertical-Interface Model................................185
Contents xi
6.2 The Dike Model...........................................193
7 Models of the Near-Surface Distortions...........................203
7.1 Distortions Caused by Small-Scale Near-Surface Inclusions......203
7.1.1 The Two-Dimensional p-Effect of the Semicylinder
and Prism........................................ 203
7.1.2 The Three-Dimensional /O-Effect of the Hemisphere.....207
7.2 Two-Dimensional Conductance Models.......................210
7.2.1 The Tikhonov-Dmitriev Basic Model .................210
7.2.2 The Two-Segment Model ...........................225
7.2.3 The Three-Segment Model..........................234
7.2.4 The Screening Effect...............................248
7.3 Three-Dimensional Conductance Models......................254
7.3.1 The Dmitriev-Barashkov Basic Model.................254
7.3.2 The Singer-Fainberg Model .........................256
7.3.3 The Berdichevsky-Dmitriev Model ...................261
7.3.4 The Golubtsova Model .............................270
7.4 Models of Structures in the Basement Topography..............272
7.4.1 The Horst Model ..................................272
7.4.2 The Graben Model ................................277
8 Models of Deep Geoelectric Structures............................287
8.1 Models of Crustal Conductive Zones .........................287
8.1.1 Magnetotelluric Anomaly Caused by Crustal
Conductive Zone.................................. 289
8.1.2 Magnetotelluric and Magnetovariational Response
Functions in the Model of Crustal Conductive Zone.....290
8.1.3 Electromagnetic Excitation of Crustal Conductors.......296
8.1.4 On the Quasi-Two-Dimensionality of Crustal Conductors 299
8.1.5 Are Deep Crustal Conductors Isotropic or Anisotropic? .. 303
8.2 Models of Asthenosphere Conductive Zones...................306
8.2.1 The Dmitriev-Mershchikova Cosine-Relief Model.......306
8.2.2 Magnetotelluric Anomalies Caused
by the Asthenosphere Uplift......................... 310
8.2.3 May Asthenospheric Structures be Excited Inductively? .. 317
8.2.4 On the Quasi-Two-Dimensionality
of Asthenospheric Structures........................ 318
8.2.5 Are Asthenospheric Structures Isotropic or Anisotropic? . 321
9 Models of Deep Faults..........................................327
9.1 Near-Surface Inhomogeneity in the Presence
of Conductive Faults.......................................327
9.2 Deep Inhomogeneity in the Presence
of Conductive Faults.......................................334
9.3 Current Channeling in Conductive Faults......................336
xii Contents
Part III Interpretation of Magnetotelluric and Magnetovariational Data
10 Statement of Inverse Problem ...................................341
10.1 On Multi-Dimensional Inverse Problem.......................342
10.1.1 Normal Background................................342
10.1.2 On Detailedness of the Multi-Dimensional Inversion.....345
10.1.3 On Redundancy of Observation Data..................346
10.2 Inverse Problem as a Sequence of Forward Problems............346
10.2.1 Forward Problem in the Class of ID-Models...........347
10.2.2 Forward Problem in the Class of 2D-Models...........347
10.2.3 Forward Problem in the Class of 3D-Models...........350
10.3 Three Questions of Hadamard...............................351
10.3.1 On the Existence of Solution to the Inverse Problem.....352
10.3.2 On the Uniqueness of Solution to the Inverse Problem ... 352
10.3.3 On the Instability of the Inverse Problem ..............361
10.4 In the Light of the Theory of Ill-Posed Problems................363
10.4.1 Conditionally Well-Posed Formulation
of the Inverse Problem............................. 364
10.4.2 Optimization Method...............................366
10.4.3 Regularization Method .............................368
10.4.4 A Few Words About the Backus-Gilbert Method .......371
10.4.5 Probabilistic Statement of the Inverse Problem..........372
10.5 Comparison Criteria.......................................375
11 The Interpretation Model.......................................383
11.1 Analyzing the Static Distortions .............................383
11.1.1 Recognising the Static Distortions....................384
11.1.2 Averaging Apparent Resistivities.....................390
11.1.3 Filtering Apparent Resistivities ......................395
11.1.4 Fitting Apparent Resistivities to Reference Level........403
11.1.5 Modeling the Distortions............................409
11.1.6 Saving the Static Shift Troubles......................411
11.2 Stratifying the Geoelectric Background.......................412
11.3 Identifying the Geoelectric Structures.........................416
11.3.1 The Magnetovariational Test.........................416
11.3.2 The Magnetotelluric Test............................417
11.3.3 Determining the Strike of the Regional Two-
Dimensional Background...........................421
11.4 Visualizing the Geoelectric Structures ........................422
11.4.1 Plotting Tipper Vectors .............................422
11.4.2 Constructing Impedance and Tipper Polar Diagrams.....423
11.4.3 Drawing the Profiles, Maps, Pseudo-Sections
and Pseudo-Topographies of MT and MV
Response Functions ...............................427
Contents xiii
11.5 Mapping the Sediments Conductance.........................441
11.5.1 The Singer-Fainberg Method ........................442
11.5.2 The Obukhov Method..............................446
12 Inversion Strategy..............................................453
12.1 The Smoothing and Contrasting Inversions ....................453
12.2 The Hypotheses Test Mode .................................456
12.3 Quasi-One-Dimensional MT Inversion........................456
12.3.1 Synthesizing the One-Dimensional Inversions..........456
12.3.2 Using the S-Method................................458
12.3.3 Correcting Quasi-One-Dimensional Inversion ..........461
12.4 Two-Dimensional Bimodal MV-MT Inversion..................464
12.4.1 Sensitivity of the TM- and TE-Modes
to the Target Structures.............................465
12.4.2 Robustness of the TM- and TE-Modes to the 3D-Effects .469
12.4.3 Susceptibility of the TM- and TE-Modes to Near-surface
Galvanic Distortions...............................476
12.4.4 Informational Complementarity of the TM- and TE-Modes479
12.5 Two Approaches to Multicriterion Inverse Problem .............481
12.6 Geoelctric Model of the Baikal Rift ..........................493
12.6.1 Two Concepts of the Baikal Rift Zone.................493
12.6.2 Synthesis of Apparen-Resitivity Curves ...............496
12.6.3 Interpretation Model ...............................498
12.6.4 Bimodal Inversion in the Hypotheses Test Mode........498
12.6.5 Test of the Mantle-Diapir Hypothesis .................499
12.6.6 Test of the Asthenosphere-Upwarp Hypothesis .........504
12.6.7 Final Remarks on the Geoelectric Model of the Baikal
Rift Zone........................................505
12.7 Geoelectric Model of the Cascadia Subduction Zone............508
12.7.1 Brief Geological Description of the Cascadia
Subduction Zone..................................510
12.7.2 Geophysical Investigations in the Cascadia
Subduction Zone..................................511
12.7.3 MT and MV Soundings on the Ocean Coast............514
12.7.4 On the Regional Near-surface Distortions..............520
12.7.5 Models EMSLAB-I and EMSLAB-II .................524
12.7.6 Analysis of Observations on the Lincoln Line ..........526
12.7.7 A New Geolectric Model of Cascadia: EMSLAB-III.....530
12.8 From Two-Dimensional Inversion to Three-Dimensional Inversion 541
Magnetotelluric Catechism..........................................545
References.........................................................547
Index.............................................................561
|
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| discipline | Maschinenbau / Maschinenwesen Geologie / Paläontologie Physik Bergbau / Hüttenwesen |
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| id | DE-604.BV035402781 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-09T21:34:26Z |
| institution | BVB |
| isbn | 9783540778110 9783540778141 |
| language | English |
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| oclc_num | 633504447 |
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| owner_facet | DE-92 DE-11 DE-188 |
| physical | XXV, 563 Seiten Diagramme |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Springer |
| record_format | marc |
| spelling | Berdičevskij, Mark N. Verfasser aut Models and methods of magnetotellurics Mark N. Berdichevsky ; Vladimir I. Dmitriev Berlin, Heidelberg Springer 2008 XXV, 563 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Literaturverzeichnis S. 547 - 559 Magnetotellurik (DE-588)4168603-2 gnd rswk-swf Magnetotellurik (DE-588)4168603-2 s DE-604 Dmitriev, Vladimir I. Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017323392&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Berdičevskij, Mark N. Dmitriev, Vladimir I. Models and methods of magnetotellurics Magnetotellurik (DE-588)4168603-2 gnd |
| subject_GND | (DE-588)4168603-2 |
| title | Models and methods of magnetotellurics |
| title_auth | Models and methods of magnetotellurics |
| title_exact_search | Models and methods of magnetotellurics |
| title_full | Models and methods of magnetotellurics Mark N. Berdichevsky ; Vladimir I. Dmitriev |
| title_fullStr | Models and methods of magnetotellurics Mark N. Berdichevsky ; Vladimir I. Dmitriev |
| title_full_unstemmed | Models and methods of magnetotellurics Mark N. Berdichevsky ; Vladimir I. Dmitriev |
| title_short | Models and methods of magnetotellurics |
| title_sort | models and methods of magnetotellurics |
| topic | Magnetotellurik (DE-588)4168603-2 gnd |
| topic_facet | Magnetotellurik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017323392&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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