| Книга | Страницы для поиска |
| Anderson P.W. — Basic notions of condensed matter physics | |
| Doi M., Edwards S.F. — The theory of polymer dynamics | 350—351; see also “Nematic phase” |
| Allen M.P., Tildesley D.J. — Computer simulation of liquids | 300ff |
| Rettig W. (ed.), Strehmel B., Schrader S. — Applied Fluorescence in Chemistry, Biology and Medicine | 346, 362 |
| Vilenkin A., Shellard E.P.S. — Cosmic strings and other topological defects | 2, 257 |
| Leach A.R. — Molecular Modelling Principles and Applications | 222—223 |
| Lakowicz J.R. — Principles of Fluorescence Spectroscopy | 312—313 |
| Thouless D.J. — Topological quantum numbers in nonrelativistic physics | 6, 10, 13, 15, 57, 92—101, 137, 329, 347 |
| Chaikin P.M., Lubensky T.C. — Principles of condensed matter physics | 58—71 |
| Kerker M. — The scattering of light | 462 |
| Lerner K.L., Lerner B.W. — The gale encyclopedia of science (Vol. 6) | 4:2349—2350 |
| Zajac A. — Optics | 363, 370—374 |
| Rubinstein M., Colby R.H. — Polymer Physics | 15 |
| James R.W. — Optical Principles of the Diffraction of X-Rays | 460 |
| Stanley H.E. — Introduction to phase transitions, and critical phenomena | 172 |
| Bao G., Cowsar L., Masters W. — Mathematical Modeling in Optical Science | 180 |
| Shen Y.R. — The Principles of Nonlinear Optics | 293 |
| Callaghan P. — Principles of Nuclear Magnetic Resonance Microscopy | 49, 344—348 |
| De Broglie M. — X-Rays | 157 |
| Charles S.Barrett — Structure of Metals | 2 |
| Goodman J.W. — Introduction to Fourier Optics | 185—198 |
| Landau L.D., Lifshitz E.M. — Statistical physics (volume 5 of Course of Theoretical Physics) | 439—45 |
| Galwey A.K. — Thermal Decomposition of Ionic Solids | 4 |
| Israelachvili J.N. — Intermolecular and surface forces | 121, 287 |
| Neubrander F. (Ed), Ferreyra G.S. (Ed) — Evolution Equations, Vol. 168 | 384 |
| Stewart I.W. — The Static and Dynamic Continuum Theory of Liquid Crystals: A Mathematical Introduction | 1 |
| Cotterill R.M.J. — Biophysics: An Introduction | 161 |
| Jork H. (ed.) — Thin-layer chromatography (Vol. 1a) | 1b 343 |
| Compton A.H., Allison S.K. — X-Rays in Theory and Experiment | 174 |
| Eringen A.C. (ed.) — Continuum physics (vol. 4) Polar and Nonlocal Field Theories | 3, 32 |
| Clark G.L. — Applied X-rays | 436 |
| Dekker A.J. — Solid State Physics | 2 |
| Randall J.T. — The Diffraction of X-rays and Electrons By Amorphous Solids, Liquids, and Gases | 252 et seq. |
| Goldenfeld N. — Lectures on Phase Transitions and the Renormalization Group | 147, 336 |
| Knight J. — Science of everyday things (volume 4). Real-life earth science | 1:43, 2:212, 2:214, see also "Crystals", "Liquids" |
| Chaikin P., Lubensky T. — Principles of condensed matter physics | 58—71; see cholesteric, nematic, and smectic |
| Greiner W., Neise L., Stöcker H. — Thermodynamics and statistical mechanics | 432 |
| Faber T.E. — Fluid Dynamics for Physicists | 386, 409 (see also nematic liquid crystals) |
| Ferrario M., Ciccotti G., Binder K. — Computer Simulations in Condensed Matter Systems. Volume 2 | 235 |
| Marder M.P. — Condensed matter physics | 107—110 |
| 0 — Holt Physics | 810—811, 810f |
| Boyd R.W. — Nonlinear Optics | 237 |
| Greiner W., Neise L., Stocker H. — Thermodynamics and statistical mechanics | 432 |
| Davies P. — The New Physics | 209, 222—223, 234, 235 |
| Plischke M., Bergersen B. — Equilibrium statistical physics | 91, 100, 114, 137 |
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