| MARTIN DRESSEL received his Doctor of Sciences degree in 1989 from the Universitat G6ttingen where he subsequently worked as a postdoctoral research fellow. Since then he has held positions in the University of British Columbia at Vancouver; the University of California, Los Angeles; the Technische Universitat, Darmstadt; and the Center of Electronic Correlations and Magnetism at the Universitfit Augsburg. Professor Dressel is now Head of the I. .. << 查看详细 |
| preface . 1 introduction part one: concepts and properties 2 the interaction of radiation with matter 2.1 maxwell's equations for time-varying fields 2.2 propagation of electromagnetic waves in the medium 2.3 optical constants 2.4 changes of electromagnetic radiation at the interface 3 general properties of the optical constants 3.1 longitudinal and transverse responses 3.2 kramers-kronig relations and sum rules 4 the medium: correlation and response functions 4.1 current-current correlation functions and conductivity 4.2 the semiclassical approach 4.3 response function formalism and conductivity 5 metals 5.1 the drude and the sommerfeld models 5.2 boltzmann's transport theory 5.3 transverse response for arbitrary q values 5.4 longitudinal response .5.5 summary of the w dependent and q dependent response 6 semiconductors 6.1 the lorentz model 6.2 direct transitions 6.3 band structure effects and van hove singularities 6.4 indirect and forbidden transitions 6.5 excitons and impurity states 6.6 the response for large co and large q 7 broken symmetry states of metals 7.1 superconducting and density wave states 7.2 the response of the condensates 7.3 coherence factors and transition probabilities 7.4 the electrodynamics of the superconducting state 7.5 the electrodynamics of density waves part two: methods 8 techniques: general considerations .. 8.1 energy scales 8.2 response to be explored 8.3 sources 8.4 detectors 8.5 overview of relevant techniques 9 propagation and scattering of electromagnetic waves 9.1 propagation of electromagnetic radiation 9.2 scattering at boundaries 9.3 resonant structures 10 spectroscopic principles 10.1 frequency domain spectroscopy 10.2 time domain spectroscopy 10.3 fourier transform spectroscopy 11 measurement configurations 11.1 single-path methods 11.2 interferometric techniques 11.3 resonant techniques part three: experiments 12 metals 12.1 simple metals 12.2 effects of interactions and disorder 13 semiconductors 13.1 band semiconductors 13.2 effects of interactions and disorder 14 broken symmetry states of metals 14.1 superconductors 14.2 density waves part four: appendices appendix a fourier and laplace transformations appendix b medium of finite thickness appendix c k. p perturbation theory appendix d sum rules appendix e non-local response appendix f dielectric response in reduced dimensions appendix g important constants and units index ... |
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