Description |
1 online resource |
Series |
Springer geophysics |
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Springer geophysics.
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Contents |
880-01 The Earth's Magnetic Field -- The Ionosphere and Atmosphere -- Atmospheric Electricity -- Earth-Ionosphere Cavity Resonator -- Ionospheric Alfvén Resonator (IAR) -- Magnetospheric MHD Resonances and ULF pulsations -- Geomagnetic Perturbations (GMPs) -- Electrokinetic Effect in Water-Saturated Rocks -- Laboratory Study of Rock Deformation and Fracture -- Electromagnetic Effects Resulted from Natural Disasters -- Electromagnetic Effects Resulted from Explosions |
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880-01/(S III Electromagnetic Fields Due to Rock Deformation and Fracture -- 7. Geomagnetic Perturbations (GMPs) -- 7.1. Two Source Mechanisms for ULF Electromagnetic Field Generation -- 7.2. Local GMPs Due to Seismic Waves in Conductive Ground -- 7.2.1. In-Situ Measurements -- 7.2.2. Basic Equations -- 7.2.3. Diffusion and Seismic Zones -- 7.2.4. Electromagnetic Forerunner of Seismic Wave -- 7.2.5. Estimates of Typical Amplitude and Frequencies of Co-seismic Signals -- 7.2.6. Spherically Symmetric Seismic Wave -- 7.2.7. Magneto-Dipole Approximation for the Diffusion Zone -- 7.2.8. Rayleigh Surface Wave in a Conductive Half-Space -- 7.3. ULF Electromagnetic Noise Due to Crack Formation in a Conductor -- 7.3.1. GMPs Due to Expansion of Tension Cracks -- 7.3.2. GMPs Due to Shear Cracks -- Appendix G Earth's Magnetic Field Perturbation by Acoustic Waves Propagating in Conductive Ground -- General Solution for the Spherically Symmetric Acoustic Wave -- Normalized Potential of Elastic Displacement -- Approximation for Short Acoustic Wavelength -- Rayleigh Surface Wave in a Conductive Half-Space -- References -- 8. Electrokinetic Effect in Water-Saturated Rock -- 8.1. Theory of Electrokinetic Effect -- 8.1.1. Basic Equations: Laboratory Study -- 8.1.2. Electrokinetic Effect in Homogeneous Media -- 8.1.3. Electrokinetic Effect in Anisotropical Media -- 8.1.4. Electrokinetic Effect in Fractal Media -- 8.2. Seismoelectric Effect Due to Propagation of Seismic Waves -- References -- 9. Laboratory Study of Rock Deformation and Fracture -- 9.1. Electromagnetic Effects Caused by Dynamic Deformation of a Solid -- 9.1.1. Electromagnetic Fields Originated from Acoustic Waves Propagation in Samples -- 9.1.2. Shock Polarization of a Dielectric -- 9.1.3. Theory of Shock Polarization of Ionic Monocrystals -- 9.1.4. Phenomenological Models of Shock Polarization in Dielectrics -- 9.1.5. Shock Magnetization and Demagnetization of Magnetic Materials -- 9.1.6. Remanent Magnetic Effects -- 9.2. Electromagnetic Effects Caused by Fracture of a Solid Dielectric -- 9.2.1. Electrical Charges on the Surface of Fractured Solid -- 9.2.2. Radiowave Emission Resulted from Fracture of Dielectric Solids -- 9.2.3. Optical Emissions -- 9.2.4. Roentgen and γ-Radiation -- 9.2.5. Electron and Ion Emissions Under Solid Failure -- 9.2.6. Theory of Electric Field Formation in a Crack -- 9.2.7. Electric Field in Collapsing Pores -- 9.3. Conclusions -- References -- 10. Electromagnetic Effects Resulted from Natural Disasters -- 10.1. ULF Electromagnetic Variations Possibly Associated with Earthquakes (EQs) -- 10.1.1. Observations of ULF Electromagnetic Noise Before and After EQs -- 10.1.2. Theory of Transient Electromagnetic Field Generated by Electric Charges on Crack Surfaces -- 10.1.3. Theory of ULF GMPs Due to Acoustic Noise Produced by Rock Fracture and Crack Formation -- 10.1.4. Theory of ULF Electromagnetic Noise Due to Electrokinetic Effect -- 10.1.5. Variations of the Rock Basement Conductivity and of Telluric Voltage Possibly Associated with EQs -- 10.1.6. Ionospheric Effects Observed Around the Time of EQs -- 10.1.7. Problem of Direction Finding for the ULF Electromagnetic Source -- 10.1.8. Other Electromagnetic Phenomena Possibly Associated with EQs |
Summary |
The major emphasis of this book is on physical mechanisms and sources of the ULF/ELF natural electromagnetic fields noises. In the course of this text, some of these mechanisms of magnetospheric origin will be treated in detail and others in a more sketchy fashion, while the global electromagnetic resonances excited by lightning activity and other sources are the priority. The interested reader is referred to the books cited in the text for details about the ULF/ELF fields of magnetospheric origin. Much emphasis is put on studies of electromagnetic phenomena caused by rock deformation/fracture including the ULF/ELF effects possibly associated with tectonic activity, earthquakes, and other natural disasters. One of the challenges of this research is to fully understand electromagnetic effects and physical processes in the rocks deep in the Earth's crust |
Analysis |
atmosfeer |
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atmosphere |
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meteorologie |
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meteorology |
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klimatologie |
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climatology |
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aardwetenschappen |
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earth sciences |
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geofysica |
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geophysics |
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geodesie |
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geodesy |
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Geology (General) |
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Geologie (algemeen) |
Bibliography |
Includes bibliographical references and index |
Notes |
Online resource; title from PDF title page (Ebsco, viewed July 18, 2014) |
Subject |
ELF electromagnetic fields.
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SCIENCE -- Energy.
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SCIENCE -- Mechanics -- General.
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SCIENCE -- Physics -- General.
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ELF electromagnetic fields
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Form |
Electronic book
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Author |
Hayakawa, Masashi, author.
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ISBN |
9784431543671 |
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4431543678 |
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443154366X |
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9784431543664 |
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