Table of Contents

Microscopic Theory of Structural Phase Transitions in Layered Transition-metal Compounds.- 1. Introduction.- 2. General theory of electron—lattice interaction and lattice dynamics based on the nonorthogonal tight-binding approximation.- 3. 1T-type transition-metal dichalcogenides.- 4. 2H-type transition-metal dichalcogenides.- 5. Transition-metal trichlorides MCl3 (M = Ti, V, Cr).- Appendix A. Perturbation theory in nonorthogonal representation.- Appendix B. Electronic free energy expansion in the adiabatic approximation and derivation of generalized electronic susceptibility.- Appendix C. Fröhlich model and Bloch model.- Appendix D. Expressions for the overlap and transfer integrals and their derivatives in terms of Slater—Koster integrals.- Microscopic Theory of Effects of Lattice Fluctuation on Structural Phase Transitions.- 1. Introduction.- 2. Formulation.- 3. Effects of lattice fluctuation on CDW transition.- 4. Effects of lattice fluctuations on the electronic density of states, spin susceptibility, and electrical resistivity.- 5. Supplementary remarks.- Appendix A. Feynman rules for— and—.- Appendix B. Evaluation of frequency sum with the use of contour integral in the complex plane.- Phenomenological Landau Theory of Charge Density Wave Phase Transitions in Layered Compounds.- 1. Introduction.- 2. Construction of Landau free energy.- 3. A simple example: single-q CDW.- 4. 2H-TaSe2.- 5. 1T-TaS2 and TaSe2.- 6. Concluding remarks.- Charge Density Waves in the Transition-metal Dichalcogenides: Recent Experimental Advances.- 1. Introduction.- 2. Charge density wave transformations observed in the Group Vb compounds.- 3. The 2a0 superlattice in the Group IVb compound 1T-TiSe2.- 4. Recent developments.- Index of Names.- Index of Subjects.