CONDENSED MATTER PHYSICS: General -- Special Bibliography at Net Advance: Melikidze; General: Froehlich et al. 95/08; Une brève introduction à la matière molle by Fabrice Cousin et al. [2011/02] General: Textbooks: R. Nave's HyperPhysics site; Introduction to Electromagnetic Theory and the Physics of Conducting Solids by Costas J. Papachristou [Hellenic Naval Academy, 2017] Junior-level textbook, 221 pp. Introduction to solid state physics by F. Göhmann [2021/01] 116 pp. General: Textbooks: Solved Problems: Mihály 96/10; General: EXPERIMENTAL: Demonstration experiments for solid state physics using a table top mechanical Stirling refrigerator by Manuel Rodriguez Osorio et al. [European Journal of Physics 33, 757 (2012)] General: COMPUTATIONAL: Machine Learning for Condensed Matter Physics by E. A. Bedolla-Montiel et al. [2020/05] General: MATHEMATICAL METHODS: Melikidze 98/03; Type: MESOSCOPIC; SOFT; Type: LOWER DIMENSIONAL: Melikidze 98/03; Aspects: CHEMICAL ELEMENTS; CONTINUUM MECHANICS; DEFECTS; MATERIALS; MEMBRANES; PHASE TRANSITIONS; SONOLUMINESCENCE; SPIN SYSTEMS; STATISTICAL MECHANICS; STRONGLY INTERACTING SYSTEMS; SUPERCONDUCTIVITY; SURFACES; Aspects: BAND STRUCTURE: A Brief Introduction to Band Structure in Three Dimensions by Peter Iannucci [2011/05] Aspects: EXCITONS: Coherent exciton transport in semiconductors by Massimo Rontani and L. J. Sham [2013/01] Photonics meets excitonics: natural and artificial molecular aggregates by Semion K. Saikin et al. [Nanophotonics 2, 21 (2013)] Exciton-polariton condensates by Tim Byrnes et al. [Nature Physics 10, 803 (2014)] Excitonic condensation in systems of strongly correlated electrons by Jan Kunes [Journal of Physics: Condensed Matter 27, 333201 (2015)] Valley excitons in two-dimensional semiconductors by Hongyi Yu et al. [National Science Review 2, 57 (2015)] Few-Body Systems in Condensed Matter Physics by Roman Ya. Kezerashvili [2019/02] Theoretical methods for excitonic physics in two-dimensional materials: A tutorial by M. F. C. Martins Quintela et al. [2022/02] Aspects: JAMMED AND PINNED STATES: Miguel et al. 2003/04; Aspects: SCREENING: Dynamical Screening Effects in Correlated Electron Materials by Silke Biermann [2013/06] Aspects: TOPOLOGICAL PHASES: See also TOPOLOGICAL INSULATORS Zoo of quantum-topological phases of matter by Xiao-Gang Wen [2016/10] Re: ANGULAR MOMENTUM: On angular momentum and magnetic moment in many-electron system by Yuri Kornyushin [2012/08] Re: ENTANGLEMENT: Entanglement and tensor network states by Jens Eisert [2013/08] Quantum entanglement in condensed matter systems by Nicolas Laflorencie [2015/12] 141 pp. Re: FEW-BODY SYSTEMS: Few-Body Systems in Condensed Matter Physics by Roman Ya. Kezerashvili [2019/02] Re: MEAN FIELD THEORY: Savic and Celebonovic 98/03; Re: THERMODYNAMIC EFFECTS: Review: Principles of identification of the physical processes caused by variation of thermodynamic parameters in solids by Yu. V. Kornyushin and L. N. Larikov [Journal of Materials Science 13, 1 (1978)] THE NET ADVANCE OF PHYSICS
CONDENSED MATTER PHYSICS: