| Книга | Страницы для поиска |
| Taylor M.E. — Partial Differential Equations. Qualitative studies of linear equations (vol. 2) | 79, 171 |
| Reed M., Simon B. — Methods of Modern mathematical physics (vol. 1) Functional analysis | 227 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 390.E |
| Schweizer W. — Numerical quantum dynamics | 156—157, 159 |
| Athreya K.B., Ney P.E. — Branching Processes | 41—42, 79, 178, 267 |
| Winkler G. — Stochastic Integrals | 1.2.(C) |
| Carmona R. — Practical Time-Frequency Analysis | 75 |
| Palmer J. — Planar Ising Correlations | 185, 189 |
| Wise G.L., Hall E.B. — Counterexamples in Probability and Real Analysis | 23, 151, 152 |
| Chatfield C. — The Analysis of Time Series: An Introduction | 94 |
| Schenk C.A., Schueller G.I. — Uncertainty Assessment of Large Finite Element Systems | 42 |
| Mishura Y.S. — Stochastic Calculus for Fractional Brownian Motion and Related Processes | 8 |
| Wyld H.W. — Mathematical Methods for Physics | 484 |
| Reed M., Simon B. — Methods of Functional Analysis (in 4 volumes). Volume 1: Functional Analysis | 227 |
| Chorin A.J. — Vorticity and turbulence | 83 |
| Rammer J. — Quantum transport theory | 110 |
| Ziman J.M. — Elements of Advanced Quantum Theory | 109, 132, 151 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 390.E |
| Galindo A., Pascual P. — Quantum Mechanics Two | I 350 |
| Shanbhag D.N. (ed.), Rao C.R. (ed.) — Stochastic Processes - Modelling and Simulation | 652 |
| Lopuzanski J. — An introduction to symmetry and supersymmetry in quantum field theory | 67 |
| Hannan E. J. — Multiple time series | 40, 41, 47, 92—93, 96, 98, 103 |
| Stewart G.W. — Matrix algorithms. Volume 2: Eigensystems | see “Simple eigenspace” |
| Landau L.D., Lifschitz E.M. — Fluid Mechanics. Vol. 6 | 142 |
| Galindo A., Pascual P. — Quantum Mechanics One | 350 |
| Bogolubov N.N., Logunov A.A., Todorov I.T. — Introduction to Axiomatic Quantum Field Theory | (see “Kaellen — Lehmann representation”) |
| Reed M., Simon B. — Methods of Modern mathematical physics (vol. 2) Fourier analysis, self-adjointness | 227 |
| Suykens J.A.K. — Least Squares Support Vector Machines | 108 |
| Araki H. (ed.), Ezawa H. (ed.) — Topics in the Theory of Schrödinger Operators | 116 |
| Kreyszig E. — Advanced engineering mathematics | 520 |
| Grosche C., Steiner F. — Handbook of Feynman path integrals | 28, 29, 151 |
| Auletta G. — Foundations and Interpretation of Quantum Mechanics | 45 |
| Kotz S. — Breakthroughs in Statistics (volume 3) | 150 |
| Steeb W., Hardy Y. — Problems and Solutions in Quantum Computing and Quantum Information | 89 |
| Socha L. — Linearization Methods for Stochastic Dynamic Systems | 17 |
| Grenander U. — Toeplitz Forms and Their Applications | 171 |
| Theodoridis S., Koutroumbas K. — Pattern recognition | 216 |
| Takacs L. — Stochastic processes: problems and solutions | 55 |
| Amrein W.O., Sinha K.B., Jauch J.M. — Scattering Theory in Quantum Mechanics: Physical Principles and Mathematical Methods | 215—229, 436 |
| Alicki R., Lendi K. — Quantum Dynamical Semigroups And Applications | 42 |
| Greiner W., Reinhardt J. — Field quantization | see "Lehmann — Kaellen representation" |
| Prigogine I. (ed.), Rice S.A. (ed.) — Advances in Chemical Physics. Volume XXXVI | 220, 245 |
| Hinrichsen D., Pritchard A. — Mathematical Systems Theory I: Modelling, State Space Analysis, Stability and Robustness | 105, 410, 418 |
| Takacz L. — Stochastic processes: problems and solutions | 55 |
| Pan G.W. — Wavelets in Electromagnetics and Device Modeling | 447, 448 |
| Collatz L. — Functional analysis and numerical mathematics | 150 |
| Brown L., Dresden M., Hoddeson L. — Pions to quarks: Particle physics in the 1950s | 616 |
| Jajte R. — Strong Limit Theorems in Noncommutative L2-Spaces | 38, 46, 53 |
| Ichimaru S. — Statistical Plasma Physics, Volume I: Basic Principles (Frontiers in Physics, Vol 87) (v. 1) | 59, 237 |
| Landau L., Sykes J. — Fluid Mechanics: Vol 6 (Course of Theoretical Physics) | 142 |
| Jorgensen P.E.T. — Analysis and Probability: Wavelets, Signals, Fractals | see "representation, spectral" |
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