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Autorenporträt
Geir Halnes is a Research Scientist with a background in physics and theoretical biology. For the last one-and a half decade, he has worked in the Computational Neuroscience Lab at the Norwegian University of Life Sciences. His research focuses on the fundamental physical processes in neurons, glial cells and brain tissue.
Inhaltsangabe
Preface Abbreviations Reserved physical symbols and quantities 1. Introduction 2. Charges, currents, fields and potentials in the brain 3. Neural dynamics 4. Volume-conductor theory 5. Conductivity of brain tissue 6. Schemes for computing extracellular potentials 7. Spikes 8. Local Field Potentials (LFPs) 9. Electroencephalography (EEG) 10. Electrocorticography (ECoG) 11. Magnetoencephalography (MEG) 12. Diffusion potentials in brain tissue 13. Final comments and outlook Appendix A frequency-dependent length constant Appendix B derivation of the current-dipole approximation Appendix C electric stimulation Appendix D derivation of point-source equation for anisotropic medium Appendix E statistical measures Appendix F fourier-based analyses Appendix G derivation of formulas for population signals Appendix H equations for computing magnetic fields Appendix I derivation of the MC+ED scheme References Index.
Preface Abbreviations Reserved physical symbols and quantities 1. Introduction 2. Charges, currents, fields and potentials in the brain 3. Neural dynamics 4. Volume-conductor theory 5. Conductivity of brain tissue 6. Schemes for computing extracellular potentials 7. Spikes 8. Local Field Potentials (LFPs) 9. Electroencephalography (EEG) 10. Electrocorticography (ECoG) 11. Magnetoencephalography (MEG) 12. Diffusion potentials in brain tissue 13. Final comments and outlook Appendix A frequency-dependent length constant Appendix B derivation of the current-dipole approximation Appendix C electric stimulation Appendix D derivation of point-source equation for anisotropic medium Appendix E statistical measures Appendix F fourier-based analyses Appendix G derivation of formulas for population signals Appendix H equations for computing magnetic fields Appendix I derivation of the MC+ED scheme References Index.
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