V. I. Afanasyev
Random walks and branching processes
Lekts. Kursy NOC, 2007, 6, 3–187
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M. E. Changa
Method of complex integration
Lekts. Kursy NOC, 2006, 2, 3–56
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M. E. Changa
The method of trigonometric sums
Lekts. Kursy NOC, 2009, 13, 3–46
|
D. M. Chibisov
Lectures on the asymptotic theory of rank tests
Lekts. Kursy NOC, 2009, 14, 3–174
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E. M. Chirka
Riemann surfaces
Lekts. Kursy NOC, 2006, 1, 3–105
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E. M. Chirka
Teichmüller spaces
Lekts. Kursy NOC, 2010, 15, 3–150
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A. P. Chugainova, see A. G. Kulikovskii
Lekts. Kursy NOC, 2010, 16, 3–120
|
Yu. N. Drozhzhinov, B. I. Zavialov
Introduction to the theory of generalized functions
Lekts. Kursy NOC, 2006, 5, 3–162
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A. K. Gushchin, see V. P. Mikhailov
Lekts. Kursy NOC, 2007, 7, 3–144
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A. S. Holevo
Mathematical foundations of quantum informatics
Lekts. Kursy NOC, 2018, 30, 3–117
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A. T. Il'ichev
Stability of bound states in infinite domains
Lekts. Kursy NOC, 2022, 32, 3–58
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M. O. Katanaev
Математические основы общей теории относительности. Часть 2
Lekts. Kursy NOC, 2018, 29, 3–365
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M. O. Katanaev
Mathematical foundations of general relativity. Part 1
Lekts. Kursy NOC, 2017, 28, 3–311
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M. O. Katanaev
Geometrical methods in mathematical physics. Applications in quantum mechanics. Part 2
Lekts. Kursy NOC, 2015, 26, 3–184
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M. O. Katanaev
Geometrical methods in mathematical physics. Applications in quantum mechanics. Part 1
Lekts. Kursy NOC, 2015, 25, 3–174
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M. E. Kazarian
Introduction to cohomology theory
Lekts. Kursy NOC, 2006, 3, 3–104
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A. G. Kulikovskii, E. I. Sveshnikova, A. P. Chugainova
Mathematical methods for studying discontinuous solutions of nonlinear hyperbolic systems of equations
Lekts. Kursy NOC, 2010, 16, 3–120
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V. P. Mikhailov, A. K. Gushchin
Additional chapters of course “Equations of Mathematical Physics”
Lekts. Kursy NOC, 2007, 7, 3–144
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V. P. Pavlov
Nonholonomic mechanics of Dirac and differential geometry
Lekts. Kursy NOC, 2014, 22, 3–55
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Yu. G. Prokhorov
Fano threefolds
Lekts. Kursy NOC, 2022, 31, 3–154
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Yu. G. Prokhorov
Rational surfaces
Lekts. Kursy NOC, 2015, 24, 3–76
|
A. G. Sergeev
Harmonic maps
Lekts. Kursy NOC, 2008, 10, 3–117
|
A. G. Sergeev
Lectures on universal Teichmüller space
Lekts. Kursy NOC, 2013, 21, 3–130
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A. G. Sergeev
Lectures on functional analysis
Lekts. Kursy NOC, 2014, 23, 3–101
|
D. S. Shirokov
Lectures on Clifford algebras and spinors
Lekts. Kursy NOC, 2012, 19, 3–179
|
N. A. Slavnov
Algebraic Bethe ansatz
Lekts. Kursy NOC, 2017, 27, 3–189
|
N. A. Slavnov
Introduction to the theory of quantum integrable systems. Quantum nonlinear Schrödinger equation
Lekts. Kursy NOC, 2011, 18, 3–118
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E. I. Sveshnikova, see A. G. Kulikovskii
Lekts. Kursy NOC, 2010, 16, 3–120
|
S. A. Telyakovskii
Lectures on mathematical analysis. Semester I
Lekts. Kursy NOC, 2009, 11, 3–210
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S. A. Telyakovskii
Lectures on mathematical analysis. Semester III
Lekts. Kursy NOC, 2013, 20, 3–241
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S. A. Telyakovskii
Lectures on mathematical analysis. Semester II
Lekts. Kursy NOC, 2011, 17, 3–192
|
D. V. Treschev
Hamiltonian mechanics
Lekts. Kursy NOC, 2006, 4, 3–63
|
V. A. Vatutin
Branching process and their application
Lekts. Kursy NOC, 2008, 8, 3–108
|
V. A. Vatutin
Branching Bellman-Harris processes
Lekts. Kursy NOC, 2009, 12, 3–111
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B. I. Zavialov, see Yu. N. Drozhzhinov
Lekts. Kursy NOC, 2006, 5, 3–162
|
V. V. Zharinov
Algebraic and geometric foundation of mathematical physics
Lekts. Kursy NOC, 2008, 9, 3–209
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