1. entropy of radiation fields 1.1 definition of entropy 1.2 entropy of the mixed states orthonormal set 1.3 entropy of the mixed states non-orthogonal set 1.4 dynamics of the entropy2. the maximum entropy principle for radiation fields 2.1 the maximum entropy principle 2.2 radiation field in thermal equilibrium 2.3 coherent states with thermal noise 2.4 squeezed states with thermal noise3. jaynes-cummings model interaction of single atom with single-mode field 3.1 general solutions of the jaynes-cummings model 3.2 quantum statistical properties of the jaynes-cummings model 3.3 the vacuum field 3.4 the superposition states 3.5 the coherent states 3.6 the squeezed states 3.7 the two-photon jaynes-cummings model4. dicke model cooperative emission of many -atom system 4.1 introduction 4.2 concepts of cooperative emission 4.3 cooperative emission of two two-level atoms 4.4 the classical theory of superradiance 4.5 interaction between n two-level atoms with a multi-mode field 4.6 superfluorescence 4.7 quantum beats in superfluorescence5. introduction to biophotonics 5.1 what is biophoton? 5.2 progress of biophoton research 5.3 the detecting system of biophoton emission 5.4 the basic characteristics of biophoton emission 5.5 biophoton analytical technology6. on coherence theory of biophoton emission 6.1 introduction 6.2 basis of coherence theory 6.3 the fv=constang-rule 6.4 the hyperbolic relaxation 6.5 biophoton emission understood as subradianc 6.6 analysis of livintg state by biophoton emission7. quantum theory of biophoton emission8. biophoton emission and organizational order9. biophoton emission and phase transitions10. biophoton emission and semiclassical theory11. biophoton emission and quantum interference12. biophoton emission and nonclassical light13. sonoluminescence interaction between photons and phonons14. dynamic electrochemiluminescence modeling, experiments and applications15. dynamic electrochemiluminescence of solution containing microbessubject index
京公网安备 11010102004214号