80. N. Brilliantov and T.
Poeschel,
Breakdown
of the Sonine expansion for the velocity
distribution
of granular gases
Europhys.
Lett., 74, (2006) 424-430. pdf file
79. T. Poeschel, N.
Brilliantov and A. Formella,
Impact of high-energy tails on granular gas properties,
Phys.
Rev. E, 74, (2006) 041302. pdf
file
78. M. Makuch, N. Brilliantov,
M. Sremcevic, F. Spahn and A. Krivov,
Stochastic
circumplanetary dynamics of rotating non-spherical dust particles.
Planetary
and Space Science, 54, (2006) 855-870. pdf file
77. N. Brilliantov and F. Spahn,
Dust
coagulation in equilibrium molecular gas,
Mathematics
and Computers in Simulation, 72, (2006) 93-98. pdf file
2005
73. N. Brilliantov and T. Poeschel,
Self-diffusion
in granular gases:Gree-Kubo versus Chapman-Enskog,
Chaos, 15 (2005)
026108. pdf file
72. T. Poeschel, N. V. Brilliantov and A.
Zaikin,
Bistability
and noise-enhanced velocity of rolling motion,
Europhys.
Letters, 69, (2005)
371-377.
71. T. Poeschel, N. Brilliantov, T. Schwager,
Transient
clusters in granular gases with a stepwise coefficient
of restitution,
In: L. Pareschi,
G. Russo, G. Toscani (eds.),
Modelling and
Numerics of Kinetic Dissipative Systems,
Nova Sience (2004).
70. N. V. Brilliantov and T.Poeschel,
Collision of
adhesive
viscoelastic particles,
In: H.
Hinrichsen
and D.Wolf, (Eds.)
The Physics
of Granular Media, Wiley-VCH,
(Berlin,
2004). pdf
file
69. T.Poeschel, N.V. Brilliantov, and C.
Frommel,
Prion
Kinetics,
Biophysical
Journal, 87, (2004) 729.
68. N.V.Brilliantov,
C.
Saluena, T. Schwager and
T.Poeschel,
Transient
structures in a granular gas,
Phys. Rev. Lett., 93,
(2004)
134301. pdf
file
67.
N.V.Brilliantov
and T.Poeschel,
Kinetic
Theory of Granular Gases,
Oxford
University Press, 2004
66. T.Poeschel,
and
N.V.Brilliantov (Eds.),
Granular Gas Dynamics,
Lecture Notes
in Physics, vol. 624, Springer (2003).
65. T.Poeschel, and N.V.Brilliantov,
Kinetic
Integrals in the Kinetic Theory of dissipative gases,
In: T.
Poeschel,
N.V. Brilliantov (Eds.) "Granular Gas Dynamics",
Lecture Notes
in Physics,
vol. 624, Springer
(Berlin, 2003), p. 131-162. pdf
file
64. T.Poeschel, N.V. Brilliantov, and C.
Frommel,
Kinetics
of Prion Growth,
Biophysical
Journal, 85, (2003) 3460-3474. pdf
file
63. N.V.Brilliantov, T. Pöschel,
Hydrodynamics
and transport coefficients for Granular Gases,
Phys. Rev.
E, 67, (2003), 061304.
pdf file
62. T.Poeschel, N.V. Brilliantov, and T.
Schwager,
Long-time
behavior of Granular Gases with impact-velocity dependent
coefficient
of restitution,
Physica
A, 325, (2003) 274-283.
pdf file
60. N.V.Brilliantov, V.V.Malinin and R.R.Netz
Systematic
Field-Theory for the Hard-Core One-Component Plasma,
Eur. Phys.
J. D, 18, (2002) p.339-345. pdf
file
59. N.V.Brilliantov,
V.V.Malinin,
and A.Yu.Loskutov,
Field-Theoretical
analysis of critical behavior of a symmetric binary fluid,
Theor. Math.
Phys., 130, (2002) p.123-135 (in russian).
58. N.V.Brilliantov and T.Poeschel,
Hydrodynamics
of granular gases of viscoelastic particles,
Phil. Trans.
R. Soc. Lond. A, 360, (2002) 415-429.
57. N.V.Brilliantov, and V.V.Malinin,
Liquid-liquid
type phase transitions and variation of the particle charge in
colloidal
solutions,
Colloidal
Journal,
64, (2002) p.261-269.
55. N.V.Brilliantov and T.Poeschel,
Granular
Gases -- the early stage,
in "Coherent
Structures
in Complex Systems", ed by D. Reguera, L.L. Bonilla, M. Rubi,
Lecture Notes in
Physics, Vol.567,
Springer
(2001) p.408-419
54. N.V.Brilliantov and V.V.Malinin,
Additivity
analysis of the electrostatic and hard-core components of the
Equation of state
of the hard-core one-component plasma,
Bull. Mosc.
State Univ., Ser.3, v.2 (2001) 27-30 (in russian).
52. N. V. Brilliantov and T. Poeschel,
Deviation
from Maxwell Distribution in Granular Gases with Constant Restitution
Coefficient.
Phys. Rev.
E, 61, (2000) 2809-2812.
pdf file
51. N. V. Brilliantov and T. Poeschel,
Velocity
distribution in granular gases of viscoelastic particles,
Phys. Rev.
E, 61, (2000) 5573-5587.
pdf file
50. N. V. Brilliantov, T. Poeschel,
Granular
Gases with Impact-velocity Dependent Restitution Coefficient,
in
"Granular Gases", ed. by S.Luding,
and
T.Poeschel,
Lecture Notes
in Physics Vol. 564, Springer (Berlin, 2000), p. 100.
49. T.Poeschel and N. V. Brilliantov,
Chains
of Viscoelastic Spheres,
in "Granular
Gases",
ed. by S.Luding, and T.Poeschel,
Lecture Notes
in Physics Vol. 564, Springer (Berlin, 2000), p. 203.
48. A.Yu. Andrienko, N.V.Brilliantov, and
J.Kurths,
Complexity
of two-dimensional patterns.
Eur. Phys.
J. B, 15, (2000) 539-546.
pdf file
47. R. Ramírez, T. Poeschel, N. V.
Brilliantov,
T. Schwager,
Coefficient
of restitution of colliding viscoelastic spheres.
Phys. Rev.
E, 60, (1999) 4465.
pdf file
46. N. V. Brilliantov, T. Poeschel,
Rolling
as a "continuing collision",
Europ. Phys.
J. B, 12, (1999) 299-301.
pdf file
45. T. Poeschel, T. Schwager, and N. V.
Brilliantov,
Rolling
of a hard cylinder on a viscous plane,
Europ. Phys.
J. B, 10, (1999) 169-174.
pdf file
43. N.V.Brilliantov and T.Poeschel,
Rolling
friction of a soft sphere on a hard plane.
Europhys.
Letters,
42 (1998) 511.
pdf file
42. N.V.Brilliantov,
Effective
magnetic Hamiltonian and Ginzburg criterion for fluids.
Phys. Rev.
E, 58, 2628 (1998).
pdf file
41. N.V.Brilliantov, Yu.A.Andrienko,
P.L.Krapivsky,
and J.Kurths,
Polydisperse
Adsorption: Pattern Formation Kinetics, Fractal Properties, and
Transition
to Order.
Phys. Rev.
E, 58, 3530-3536 (1998). pdf
file
40. N.Brilliantov, and J.Valleau,
Thermodynamic
Scaling Monte Carlo Study of the Liquid-Gas Transition in the
Square-Well
Fluid.
J. Chem.
Phys.,
108 (1998) 1115-1122.
39. N.Brilliantov, and J.Valleau,
Effective
Hamiltonian Analysis of Fluid Criticality and Application to the
Square-Well
Fluid.
J. Chem.
Phys.,
108 (1998) 1123-1130.
38. N.V. Brilliantov, C. Bagnuls and
C.Bervillier,
Peculiarity
of the Coulombic Criticality?
Phys. Lett.
A, 245, 274 (1998). pdf
file
37. N.V.Brilliantov, N.G.Vostrikova, and
O.P.Revokatov,
Role
of electrical interactions in rotational motion of charged solute in
polar
solvents.
J. Phys. Chem.
B, 102, N32, 6299-6302 (1998). pdf
file
36. N.V. Brilliantov,
Accurate
First-Principle Equation of State for the One-Component Plasma,
Contrib.
to Plasma Physics, 38 (1998) N4, 489-499.
33. N. V. Brilliantov, F. Spahn, J.-M.
Hertzsch,
and T. Poeschel,
Model
for collisions in granular gases
Phys. Rev.
E, 53 (1996) 5382-5392. pdf
file
32. N.V.Brilliantov,
O.P.Revokatov,
Molecular
Motion in Disordered Media.
Moscow
University Press, Moscow (1996) 170 p. (in russian).
31. N.V.Brilliantov, F. Spahn, J.-M. Hertzsch,
and T. Poeschel,
The
collisions of particles in granular systems.
Physica
A,
231 (1996) 417-424.
29. F. Spahn, J.-M. Hertzsch, and
N.V.Brilliantov,
The
Role of Particle-Collisions for the Dynamics in Planetary Rings.
Chaos,
Solitons
and Fractals, 5 (1995) 1945 - 1964.
27. Yu.A.Andrienko, N.V.Brilliantov, and
P.L.Krapivsky,
Pattern
formation by growing droplets: The touch-and-stop model of
growth.
J. Stat.
Phys.,
75, (1994) 507-523.
26. F. Spahn, N. V. Brilliantov, J.-M.
Hertzsch,
and T. Poeschel,
On
collisions between granular particles: Application to planetary rings.
Bull. Am.
Astron.
Soc., 26, (1994) 1143-1144 .
25. Yu. M. Petrusevitch and N. V. Brilliantov,
Dielectric
properties of protein solutions and interactionof electromagnetic
fields
with biosystems.
Bull. Mosc.
State Univ., Ser.3, N4 (1994) 63-67 (in russian).
23. N.V.Brilliantov, N.G.Vostrikova,
V.P.Denisov,
Yu.M.Petrusievich and O.P.Revokatov ,
Influence
of dielectric friction and near-surface increase of viscosity
on
rotational
Brownian motion of charged biopolymers in solution.
Biophysical
Chemistry, 46 (1993) 227-236.
21. N.V.Brilliantov, and N.G.Vostrikova
Rotational
motion of Brownian particles with surface charge.
Molecular
Physics,
77 (1992) 957.
20. N.V.Brilliantov, A.I.Rudenko,
Yu.V.Shcherbakov
and V.V.Zverev,
DLTS
studies of low temperature annealing in lithium-doped
silicon.
Physica
Status Solidi A, 130 (1992) 53-60.
18. N.V.Brilliantov, and P.L.Krapivsky,
Stokes
laws for ions in solutions with ion-induced inhomogeneity.
J. Phys.
Chem.,
95 (1991) 6055-6057.
17. N.V.Brilliantov, and P.L.Krapivsky,
Nonscaling
and source-induced scaling behaviour in aggregation
models of movable
monomers and immovable clusters.
J. Phys. A:
Math. Gen., 24 (1991) 4789-4803.
15. N.V.Brilliantov, V.A.Vol'sky,
A.I.Kviatkievich
and V.N.Timoshkin,
Difusion
of charged impurities in semiconductors. Account for the
correlation
effects,
Sov. Phys.
and Technics of Semiconductors 24, N5 (1990) 860-865 (in russian).
14. A.O.Ait, M.V.Alfimov, N.V.Brilliantov,
A.E.Galashin
and N.K.Zaitsev,
The
development kinetics of black-and-white aghal photographic-emulsions
analyzed with
the help of stochastic model,
Journal of
scientific photography, 35, N2 (1990) 96-102 (in russian).
12. N.V.Brilliantov, and P.L.Krapivsky,
Kinetic
models of clusterization of point defects in solids.
Sov. Phys.
Solid State, 31, N2 (1989) 172-178 (in russian).
11. N.V.Brilliantov, P.L.Krapivsky, and
V.A.Vol'sky,
Diffusion-limited
growth of surface structures:
Relation between
fractal dimension and growth kinetics,
Sov. Phys.
Surface, N12 (1989) 30-35 (in russian).
10. N.V.Brilliantov, and A.I.Kviatkievich
Concentrational
dependence of the diffusion coefficient for interacting defects in
solids.
Sov. Phys.
Solid State, 31, N12 (1989) 63-70 (in russian).
8. N.V.Brilliantov and
O.P.Revokatov,
Relation
between molecular correlation times for the rotational
and translational
motion in dense fluids,
Radiospektroskopiya,
Perm,
1985 , 259-266 (in russian).
7. N.V.Brilliantov and
O.P.Revokatov,
Hard-spheres
model and molecular motion in dense fluids,
Izd. VINITI,
Moscow,
(1985), 1-115 (in russian).
6. N.V.Brilliantov and
O.P.Revokatov,
Connection between pressure and dynamical
coefficients for the hard-sphere system,
Sov. J. Phys.
Chem., 58 (1984) 783-786 (in russian)
5. N.V.Brilliantov and
O.P.Revokatov,
Relation
between momentum and angular momentum correlation times.
Analysis of the
uncorrelated successive binary-collision approximation.
Chem. Phys.
Letters, 104 (1984) 444-447.
4. N.V.Brilliantov and
O.P.Revokatov,
Relation
between self-diffusion coefficient and rotational-diffusion
coefficient in
gases of moderate density.
Sov. Phys.
JETP, 60 (1984) 82-83 (in russian).
3. Yu.A.Andrienko, N.V.Brilliantov
and O.P.Revokatov,
The
temperature dependence of density and pressure on the
melting
line for inert gases.
Sov. J. Phys.
Chem., 58 (1984) 1840-1842 (in russian)
2. N.V.Brilliantov and
O.P.Revokatov,
Autocorrelation
functions of rotational and translational motion in simple liquids.
Bull. Mosc.
State Univ., Ser.3, v.24, N1 (1983) 76-79 (in russian).
1. N.V.Brilliantov and
O.P.Revokatov,
Correlation
function of momentum and angular momentum for the cell model of liquids,
Radiospektroskopiya
,
Perm, 1983 ,12-19 (in russian).