|
|
 |
| Результат поиска |
Поиск книг, содержащих: Coherence length
| Книга | Страницы для поиска | | Demtroeder W. — Laser spectroscopy | 42, 337 | | Felsager B. — Geometry, particles and fields | 433—434 | | Liddle A., Lyth D.H. — Cosmological Inflation and Large-Scale Structure | 112 | | Guenther R.D. — Modern optics | 303, 313, 646—648, 666 | | Clarke L.J. — Surface crystallography: an introduction to low energy electron diffraction | 5,13, 99—100, 204, 218 | | Elliott R.J., Gibson A.F. — An Introduction to Solid State Physics and Its Applications | 350 | | Mills D.L. — Nonlinear optics | 55 | | Thouless D.J. — Topological quantum numbers in nonrelativistic physics | 39, 40 | | Chaikin P.M., Lubensky T.C. — Principles of condensed matter physics | 231 (see also “Correlation length”) | | Kadanoff L.P. — Statistical physics | 56, 236, 256 | | Kerker M. — The scattering of light | 477 | | Schmidt V.V. — The physics of superconductors. Introduction to fundamentals and applications | 53, 152 | | Gompper G., Schick M. — Self-Assembling Amphiphilic Systems | 163 | | Ready J.F., Farson D.F. — LIA handbook of laser materials processing | 70, 91, 93, 94, 106 | | Schroeder M.R. — Schroeder, Self Similarity: Chaos, Fractals, Power Laws | 114 | | Stanley H.E. — Introduction to phase transitions, and critical phenomena | see “Correlation length” | | Banerjee P.P., Poon T.-C. — Principles of applied optics | 297 | | Young M. — Optics and Lasers: Including Fibers and Optical Waveguides | 5.6.1, 6.2, 8.3.5 | | Rickayzen G. — Green's functions and condensed matter | 224 | | Unertl W.N. — Physical Structure | 532, 553, 686 | | Bardou F., Bouchaud J., Aspect A. — Levy statistics and laser cooling | 13 | | Landau L.D., Lifschitz E.M. — Statistical physics (vol. 9 of course of theoretical physics) | 158 | | Poole Jr.C.P., Owens F.J. — Introduction to Nanotechnology | 254 | | Anderson P.W. — The theory of superconductivity in the high-Tc curprates | 223 | | Dresselhaus M.S., Dresselhaus G., Avouris Ph. — Carbon nanotubes | 168, 169, 171, 172 | | Goodman J.W. — Introduction to Fourier Optics | 313 | | Orlando T.P., Delin K.F. — Foundations of Applied Superconductivity | 260, 302 | | Animalu A.O. — Intermediate Quantum Theory of Crystalline Solids | 414, 416 | | Kleinert H., Schulte-Frohlinde — Critical Properties of (Phi)P4-Theories | 4, 7, 17, 19 | | Vanderlugt A. — Optical signal processing | 140 | | Tyson R.K. (ed.) — Adaptive optics engineering handbook | 314 | | Zee A. — Quantum field theory in a nutshell | 271 | | Pfeiler W. — Alloy Physics: A Comprehensive Reference | 722 | | Volovik G. — Artificial black holes | 92, 94, 95, 180, 183, 190 | | Fogiel M. — The optics problem solver | 26—14 | | Stewart I.W. — The Static and Dynamic Continuum Theory of Liquid Crystals: A Mathematical Introduction | see magnetic coherence length | | Demtröder W. — Laser spectroscopy: basic concepts and instrumentation | 42, 337 | | Stahl A., Balslev I. — Electrodynamics of the Semiconductor Band Edge | 24, 39, 125, 139, 142, 167 | | Hercules Proceedings (Vol. I) (unknown book) | 50, 268, 52, 62, 63 | | Klyshko D.N. — Photons and nonlinear optics | 21 | | Mourachkine A. — High-Temperature Superconductivity in Cuprates: The Nonlinear Mechanism and Tunneling Measurements | 2, 19, 22, 24, 36, 43, 50, 60, 64, 66, 175, 178, 183, 186—187, 189—190, 208, 218, 234—235, 243, 248, 251, 253 | | Kleinert H. — Gauge fields in condensed matter (part 4) | 1183, 1192 | | Domb C.M., Green M. — Phase Transitions and Critical Phenomena: Series Expansion for Lattice Models, Vol. 3 | 439 | | Appenzeller I. (ed.), Habing H.J. (ed.), Léna P. (ed.) — Evolution of Galaxies Astronomical Observations | 369 | | Steen W.M. — Laser material Processing | 24 | | Renliang Xu — Particle Characterization : Light Scattering Methods | 226, 280 | | Achmanov S.A., Nikitin S.Yu. — Physical Optics | 211 | | Chaikin P., Lubensky T. — Principles of condensed matter physics | 231; see correlation length | | Boehm F., Vogel P. — Physics of massive neutrinos | 93ff | | Brewer D.F. — Progress in Low Temperature Physics. Volume X | 6, 10, 45 | | Marder M.P. — Condensed matter physics | see "Superconductivity, coherence length" | | Matt Young — Optics and Lasers: Including Fibers and Optical Waveguides | 5.6.1, 6.2, 8.3.5 | | Gavrila M. (ed.) — Atoms in intense laser fields | 194 | | Authier A., Lagomarsino S., Tanner B. — X-ray and neutron dynamical diffraction | 292 | | Nozieres P., Pines D. — The theory of quantum liquids | 59, 164 | | Jahne B., Haubecker H. — Computer vision and applications | 201 | | Breuer H.-P., Petruccione F. — The Theory of Open Quantum Systems | 613 | | Akhmanov S.A., Nikitin S.Yu. — Physical Optics | 211 | | Dolan T.J. — Fusion Research: Principles, Experiments and Technology | 638 | | Shu-Ang Zhou — Electrodynamics of solids and microwave superconductivity | 244, 326 | | Kleinert H. — Gauge fields in condensed matter (part 2) | 262, 266, 423, 669, 673, 685 | | Melissinos A.C. — Principles of modern technology | 150 | | Kittel C. — Introduction to solid state physics | 352, 660 | | Plischke M., Bergersen B. — Equilibrium statistical physics | 168, 454 | | Bok J., Deutscher G., Pavuna D. — The gap symmetry and fluctuations in High-Tc conductors | 6, 11, 19, 460 |
|
|
|
|
О проекте