[1] Bunimovich, L. A.; Dani, S. G.; Dobrushin, R. L.;
Jakobson, M. V.; Kornfeld, I. P.; Maslova, N. B.; Pesin, Ya. B.; Sinai, Ya.
G.; Smillie, J.; Sukhov, Yu. M.; Vershik, A. M.
Dynamical systems, ergodic theory and applications.
Edited and with a preface by Sinai. Translated
from the Russian. Second, expanded and revised edition. Encyclopaedia of
Mathematical Sciences, 100. Mathematical Physics, I. Springer-Verlag,
Berlin, 2000. xii+459 pp.
[2] Arkeryd, L.; Maslova, N. On diffuse reflection at the
boundary for the Boltzmann equation and related equations.
J. Statist.Phys. 77 (1994), no. 5-6, 1051--1077.
[3] Maslova, N. B. Regularity of statistical solutions of
transport equations. (Russian) Trudy S.-Peterburg. Mat. Obshch. 2 (1993),
272--284, 335--336.
[4] Maslova, Nina B. Nonlinear evolution equations. Kinetic
approach. Series on Advances in Mathematics for Applied
Sciences, 10. World Scientific Publishing Co., Inc., River
Edge, NJ, 1993. x+193 pp.
[5] Maslova, N. B. Kinetic approximations of equations of
hydrodynamics. (Russian) Algebra i Analiz 4 (1992), no. 6, 157--188.
[6] Maslova, N. B. Mathematical methods for studying the
Boltzmann equation. (Russian) Algebra i Analiz 3 (1991), no. 1, 3--56.
[7] Maslova, N. B. Statistical solutions of Euler
equations. (Russian) Nonlinear equations and variational inequalities.
Linear operators and spectral theory (Russian), 27--37, 249--250, Probl.
Mat. Anal., 11, Leningrad. Univ., Leningrad, 1990.
[8] Bunimovich, L. A.; Cornfeld, I. P.; Dobrushin, R. L.;
Jakobson, M. V.; Maslova, N. B.; Pesin, Ya. B.; Sinai, Ya. G.;
Sukhov, Yu. M.; Vershik, A. M. Dynamical systems. II. Ergodic
theory with applications to dynamical systems and statistical
mechanics. Edited and with a preface by Sinai. Translated
from the Russian. Encyclopaedia of Mathematical Sciences, 2.
Springer-Verlag, Berlin, 1989. x+281 pp.
[9] Maslova, N. B.; Romanovskii, Yu. R. Justification
of the Hilbert method in the theory of kinetic equations. (Russian) Zh.
Vychisl. Mat. i Mat. Fiz. 27 (1987), no. 11, 1680--1689, 1759.
[10] Maslov, S. Yu. Theory of deductive systems and its
applications. With a foreword by Nina B. Maslova. Translated from the
Russian by Michael Gelfond and Vladimir Lifschitz. MIT Press Series in the
Foundations of Computing. MIT Press, Cambridge, MA-London, 1987. xii+151
[11] Maslova, N. B. On the connection between kinetic
equations and equations of hydrodynamics. (Russian) Linear and nonlinear
boundary value problems. Spectral theory (Russian), 47--61, 212, Probl.
Mat. Anal., 10, Leningrad. Univ., Leningrad, 1986.
[12] Maslov, S. Yu. Teoriya deduktivnykh sistem i
ee primeneniya. (Russian) [The theory of deductive systems and its
applications] With prefaces by D. A. Pospelov and N. B. Maslova.
Kibernetika. [Cybernetics] "Radio i Svyaz'", Moscow, 1986. 134 pp.
[13] Bunimovich, L. A.; Vershik, A. M.; Dobrushin, R. L.;
Kornfel'd, I. P.; Maslova, N. B.; Pesin, Ya. B.; Sinai, Ya. G.;
Sukhov, Yu. M.; Yakobson, M. V. Sovremennye problemy
matematiki. Fundamental'nye napravleniya. Tom 2.
(Russian) [Current problems in mathematics. Fundamental
directions. Vol. 2] Dinamicheskie sistemy. 2. [Dynamical
systems. 2] Edited by R. V. Gamkrelidze. Itogi Nauki i Tekhniki.
[Progress in Science and Technology] Akad. Nauk SSSR, Vsesoyuz.
Inst. Nauchn. i Tekhn. Inform., Moscow, 1985. 312 pp.
[14] Maslova, N. B. Connection between the Boltzmann
equation and the equations of fluid dynamics. (Russian) Dokl. Akad. Nauk
SSSR 282 (1985), no. 4, 837--841.
[15] Maslova, N. B. Stationary solutions of the
linearized Boltzmann equation. (Russian) Boundary value problems of
mathematical physics, 12. Trudy Mat. Inst. Steklov. 159 (1983), 41--60.
[16] Maslova, N. B. Exterior stationary problems for the
linearized Boltzmann equation. (Russian) Aerodynamics of rarefied gases,
No. 11, 143--165, Leningrad. Univ., Leningrad, 1983.
[17] Maslova, N. B. Global solutions of nonstationary
kinetic equations. (Russian) Boundary value problems of mathematical
physics and related questions in the theory of functions, 14. Zap. Nauchn.
Sem. Leningrad. Otdel. Mat. Inst. Steklov. (LOMI) 115 (1982), 169--177,
309.
[18] Maslova, N. B. The Kramers problem in the kinetic
theory of gases. (Russian) Zh. Vychisl. Mat. i Mat. Fiz. 22 (1982), no. 3,
700--709, 766.
[19] Maslova, N. B. Stationary solutions of the Boltzmann
equation in unbounded domains. (Russian) Dokl. Akad. Nauk SSSR 260 (1981),
no. 4, 844--848.
[20] Maslova, N. B. Stationary boundary value problems
for the nonlinear Boltzmann equation. (Russian) Boundary value problems of
mathematical physics and related questions in the theory of functions, 13.
Zap. Nauchn. Sem. Leningrad. Otdel. Mat. Inst. Steklov. (LOMI) 110 (1981),
100--104, 243.
[21] Geinc, A. G.; Maljarenko, V. A.; Maslova, N. B.
Free molecular flow inside a spherical cavity. (Russian) Aerodynamics of
rarefied gases, No. 10 (Russian), pp. 203--209, 237, Leningrad. Univ.,
Leningrad, 1980.
[22] Maslova, N. B. Stationary solutions of the Boltzmann
equation and the Knudsen boundary layer. (Russian) Aerodynamics of rarefied
gases, No. 10 (Russian), pp. 5--15, 229, Leningrad. Univ., Leningrad, 1980.
[23] Maslova, N. B. Stationary problems for
the Boltzmann equation for large Knudsen numbers. (Russian)
Aerodynamics of rarefied gases, No. 9 (Russian), pp. 139--155,
239, Leningrad. Univ., Leningrad, 1978.
[24] Maslova, N. B. Solvability of stationary problems
for the Boltzmann equation in the case of large Knudsen numbers. (Russian)
Z. Vychisl. Mat. i Mat. Fiz. 17 (1977), no. 4, 1020--1030, 1094.
[25] Maslova, N. B.; Cubenko, R. P. Minorants of
solutions of the Boltzmann equation. (Russian) Vestnik Leningrad. Univ.
1976, no. 7 Mat. Meh. Astronom. vyp. 2, 109--113, 164.
[26] Maslova, N. B. Stationary problems for the Boltzmann
equation in the case of large Knudsen numbers. (Russian) Dokl. Akad. Nauk
SSSR 229 (1976), no. 3, 593--596.
[27] Maslova, N. B.; Cubenko, R. P. Relaxation in a
monatomic spatially homogeneous gas. (Russian) Vestnik Leningrad. Univ.
1976, no. 13 Mat. Meh. Astronom. vyp. 3, 90--97, 186.
[28] Maslova, N. B.; Firsov, A. N. Solution of the Cauchy
problem for the Boltzmann equation. II. Estimates of the solutions of the
nonhomogeneous linearized equation. (Russian) Vestnik Leningrad. Univ.
1976, no. 1 Mat. Meh. Astronom. vyp. 1, 97--103, 162.
[29] Maslova, N. B.; Firsov, A. N. Solution of
the Cauchy problem for the Boltzmann equation. I. Existence and
uniqueness theorem. (Russian) Vestnik Leningrad. Univ. 1975,
no. 19 Mat. Meh. Astronom. vyp. 4, 83--88, 168.
[30] Maslova, N. B. The distribution of the number of real
roots of random polynomials. (Russian) Teor. Verojatnost. i Primenen. 19
(1974), 488--500.
[31] Maslova, N. B. The variance of the number of real
roots of random polynomials. (Russian) Teor. Verojatnost. i Primenen. 19
(1974), 36--51.
[32] Maslova, N. B.; Cubenko, R. P. The solutions of
the nonstationary Boltzmann equation. (Russian)
Vestnik Leningrad. Univ. No. 19 Mat. Meh. Astronom. Vyp. 4,
(1973), 100--105, 154.
[33] Maslova, N. B.; Cubenko, R. P.
Estimates of the collision integral. (Russian) Vestnik
Leningrad. Univ. No. 13 Mat. Meh. Astronom. Vyp. 3, (1973),
130--137, 174.
[34] Maslova, N. B. The solution of kinetic
equations that describe a polyatomic spatially homogeneous gas.
(Russian) Vestnik Leningrad. Univ. 1971, no. 19, 109--116.
[35] Maslova, N. B. The solution of the system
of kinetic equations that describe a spatially homogeneous
mixture of polyatomic gases. (Russian) Vestnik Leningrad. Univ.
1971, no. 7, 150--152.
[36] Ibragimov, I. A.; Maslova, N. B. The average number
of real roots of random polynomials. (Russian) Dokl. Akad. Nauk SSSR 199
(1971), 13--16.
[37] Ibragimov, I. A.; Maslova, N. B. The mean number of
real zeros of random polynomials. II. Coefficients with a nonzero mean.
(Russian) Teor. Verojatnost. i Primenen. 16 1971 495--503.
[38] Ibragimov, I. A.; Maslova, N. B. The mean
number of real zeros of random polynomials. I. Coefficients with
zero mean. (Russian) Teor. Verojatnost. i Primenen. 16 1971 229--248.
[39] Ibragimov, I. A.; Maslova, N. B. The average number
of zeros of random polynomials. (Russian) Vestnik
Leningrad. Univ. 23 1968 no. 19, 171--172.
[40] Maslova, N. B. A method of solving the relaxation
equations. (Russian) Dokl. Akad. Nauk SSSR 182 1968 760--763.
[41] Maslova, N. B. Statistical distribution in a gas with
radiation as solution of the kinetic equations. (Russian) 1965 Aerodynamics
of Rarefied Gases (Russian), Coll. II pp. 31--61 Izdat. Leningrad. Univ.,
Leningrad
[42] Maslova, N. B. Equations of motion of a viscous gas
in the presence of radiation. (Russian) 1965 Aerodynamics of Rarefied Gases
(Russian), Coll. II pp. 163--214 Izdat. Leningrad. Univ., Leningrad
[43] Maslova, N. B. On the system of equations of a viscous
fluid in special relativity. (Russian) Vestnik Leningrad. Univ. Ser. Mat.
Meh. Astronom 18 1963 no. 4, 92--111.
[44] Maslova, N. B. Relativistic integral kinetic
equations. (Russian) Vestnik Leningrad. Univ. Ser. Mat. Meh. Astronom 18
1963 no. 2, 107--119.
[45] Maslova, N. B. Some remarks on Maxwell's relativistic
distribution. (Russian) Vestnik Leningrad. Univ. 17 1962 no. 19, 156--159.