Publication List

Back to my main page

2019

 130. G.Feng,  M. Chen, S. Bi,  Z. H. Goodwin, E. B. Postnikov, N. Brilliantov, M. Urbakh and A. A. Kornyshev, Phys. Rev. X (2019) in press.

  129. Bodrova, V. Stadnichuk, P. L. Krapivsky, J. Schmidt, N.V. Brilliantov, Kinetic regimes in aggregating systems with spontaneous and collisional fragmentation, J. Phys. A: Math. Gen., (2019) in press.

  128. I. V. Timokhin, S. A. Matveev, N. Siddharth, E. E. Tyrtyshnikov, A. P. Smirnov and N. V. Brilliantov, Newton method for stationary and quasi-stationary problems for Smoluchowski-type equations, J. Comp. Phys. 382 (2019) 124 – 137.

 2018 

 127. N. V. Brilliantov, T. Poeschel, and A. Formella, Ballistic aggregation of particles with different aggregation mechanisms, Nature Communications, 9 (2018) 797.

  126. S.A. Matveev, N.V.  Ampilogova, V.I.  Stadnichuk, E. E.Tyrtyshnikov, A.P. Smirnov, and N.V. Brilliantov,  Anderson acceleration method of finding steady-state particle size distribution for a wide class of aggregation-fragmentation models, Computer Physics Communications,  224 (2018) 154-163.

  125. N. V. Brilliantov, W. Otieno, S. A. Matveev, A. P. Smirnov, E. E. Tyrtyshnikov, and P. L. Krapivsky, Steady oscillations in aggregation-fragmentation processes, Phys. Rev. E 98 (2018) 012109.

 

2017

125. P. L. Krapivsky, W. Otieno and N. V. Brilliantov, Phase Transitions in Systems with Aggregation and Shattering, Phys. Rev. E, 96 (2017) 042138.

124. N. Brilliantov, T. Poeschel, and A. Formella, Ballistic aggregation of particles with different aggregation mechanisms, Nature Communications, (2017) in press.

123. S. A. Matveev, P. L. Krapivsky,  A. P. Smirnov, E. E. Tyrtyshnikov,  and      N. V. Brilliantov, Oscillations in aggregation-shattering processes,  Phys. Rev. Lett.,  119 (2017) 260601.  

122. N.V. Brilliantov, Yu. A. Budkov and C. Seidel, Theoretical and numerical analysis of nano-actuators based on grafted polyelectrolytes in electric field, Faraday Discussion, 199 (2017) 487-510.  

121. S.A. Matveev, N.V.  Ampilogova, V.I.  Stadnichuk, E. E.Tyrtyshnikov, A.P. Smirnov, and N.V. Brilliantov,  Anderson acceleration method of finding steady-state particle size distribution for a wide class of aggregation-fragmentation models, Computer Physics Communications, (2017) on-line version: https://doi.org/10.1016/j.cpc.2017.11.002

 

120. A.M. Tom, S. Vemparala, R. Rajesh, and N.V. Brilliantov, Regimes of strong   electrostatic collapse of a highly charged polyelectrolyte in a poor solvent, Soft Matter, 13 (2017) 1862-1872.

 
2016

 

119. N. V. Brilliantov, Yu. A. Budkov and  C. Seidel, Generation of mechanical force by grafted polyelectrolytes in an electric field. Application to polyelectrolyte-based nano-devices, Philosophical Transactions A,  374 (2016) online: http://rsta.royalsocietypublishing.org/content/374/2080/20160143.full?ijkey=lRdqp9X952nJOrq&keytype=ref

118. A. M. Tom, S. Vemparala, R. Rajesh, and N. V. Brilliantov, Mechanism of chain collapse of strongly charged polyelectrolytes, Phys. Rev. Lett., 117 (2016) 147801.
 
117. N. V. Brilliantov, Yu. A. Budkov and  C. Seidel, Generation of mechanical force by grafted polyelectrolytes in an electric field, Phys. Rev. E,  93 (2016) 032505.

 

116. N. V. Brilliantov and J. Schmidt, Wonder of the Solar System: Icy Geysers and Liquid Water on Enceladus, in UK Success Stories in Industrial Mathematics, (Eds. P.J.Aston, A.J.Mulholland and K.M.M. Tant), p.37, Springer, 2016. 

 

2015

 

115. N. V. Brilliantov, P. L. Krapivsky, A. Bodrova, F. Spahn, H. Hayakawa, V. Stadnichuk and J. Schmidt, Size distribution of particles in Saturn’s rings from aggregation and fragmentation, Proc. Natl. Acad. Sci. USA, 112 (2015) 9536-9541.

 114. V. Stadnichuk, A. Bodrova and N. Brilliantov, Smoluchowskii aggregation-fragmentation equations: Fast numerical method to find steady-state solutions, Int. J. Mod. Phys. B, 29 (2015) 1550208.

 113. N.V. Brilliantov, A.V. Pimenova and D.S. Goldobin, A dissipative force between colliding viscoelastic bodies: Rigorous approach, Europhysics Lettes,  109 (2015) 14005.

112. D. S. Goldobin, E. A. Susloparov, A.V. Pimenova and N. V. Brilliantov, Collision of viscoelastic bodies: Rigorous derivation of dissipative force, European Physics J. E, 38 (2015)   55.

 

2014

 

111. A. Bodrova, D.  Levchenko and N. Brilliantov, Universality of temperature distribution in granular gas mixtures with a steep particle size distribution, Europhys. Lett.  106 (2014) 14001 

 

110. D. S. Goldobin, N. V. Brilliantov, J. Levesley, M. A. Lovell, C. A. Rochelle, P. D. Jackson, A. M. Haywood, S. J. Hunter and J. G. Rees,  Non-Fickian diffusion and the accumulation of methane bubbles in deep-water sediments,  Eur. Phys. J. E 37  (2014)  45.

 

109. F. Spahn, E. Vieira Neto, A.H.F. Guimaraes, A. N. Gorban' and N.V. Brilliantov, A statistical model of aggregate fragmentation, New J. Phys.,  16 (2014) 013031. 

 

108. S. A. Matveev,  E. E. Tyrtyshnikov ,  A. P. Smirnov, and N. V. Brilliantov, A Fast Numerical Method for Solving the Smoluchowski-Type Kinetic Equations of Aggregation and Fragmentation Processes, Computational Methods and Programming, 15 (2014) 1-8 (in russian).

 

 2013

 

107. C.Seidel, Yu.A. Budkov and N. V. Brilliantov, Field-regulated force by grafted polyelectrolytes, J. Nanoengineering and Nanosystems, 227 (2013) 142–149.

 

 

 106. Yu.A. Budkov, V.I. Frolov, M.G. Kiselev and N. V. Brilliantov, Surface-induced liquid-gas transition in salt-free solutions of model charged colloids, J. Chem.  Phys., 139 (2013) 194901.

 

 

 105. A. Bodrova, A. K.Dubey, S. Puri and N. Brilliantov, Velocity distribution function and effective restitution coefficient for a granular gas of viscoelastic particles,  Phys. Rev. E. 87 (2013) 062202.

 

 104.N. Brilliantov, N.Albers, F. Spahn and T.Poeschel, Collision dynamics of granular particles with adhesion (vol 76, 051302, 2007), Phys. Rev. E. 87 (2013) 039904.  

 

 2012

 

103. A. Bodrova, A. K.Dubey, S. Puri and N. Brilliantov, Intermediate regimes in granular Brownian motion: Superdiffusion and Subdiffusion,   Phys. Rev. Lett., 109 (2012) 178001.
 

 

102. N. V. Brilliantov and C. Seidel “Grafted polyelectrolyte in strong electric field under load: Field-regulated force and chain contraction”,  Europhysics Lett.,  97 (2012) 28006

 

 

 

 101. Ana H. F. Guimarães,  Nicole Albers, Frank Spahna,  Martin Seiß, Ernest Vieira-Neto, and  Nikolai V. Brilliantov, Icarus, 220, (2012)  660-678.
 

 

100.  Anna Bodrova and Nikolai Brilliantov “Self-Diffusion in a granular gas of rough particles”, Granular Matter14 (2012),  85-90
 

 

 99. Bodrova, A. S., Schmidt, J., Spahn  F., and Brilliantov, N.V. , “Adhesion and collisional release of particles in dense planetary rings.” Icarus, 218, 60-68 (2012).
 

 

2011
 

 

98. D.S. Goldobin, N.V. Brilliantov, Diffusive counter dispersion of mass in bubbly media, Phys. Rev. E 84,  (2011) 056328.  
 

 

97.  C. Salueña, L. Almazán and N. V. Brilliantov, Mechanisms of Cluster Formation in Force-Free Granular Gases, Math. Model. Nat. Phenom., 6, 175 (2011). 96. N. V. Brilliantov, Preface to the topical issue Granular Hydrodynamics, Math. Model. Nat. Phenom. 6, 1 (2011). 

 

 

 

2010
 

 

95. K. Saitoh, A. Bodrova, H. Hayakawa and N. V. Brilliantov,  Negative Normal Restitution Coefficient Found in Simulation of Nanocluster Collisions , Phys. Rev. Lett. 105, 238001 (2010).
 

 

94. T. Kranz, N. V. Brilliantov, T. Poeschel, and A. Zippelius, Correlation of spin and velocity in the homogeneous cooling state of a granular gas of rough particles, Eur. Phys. J.  179  (2010)  pp. 91-111.
 

 

2009
 

 

93. F. Postberg, S. Kempf, J. Schmidt, N. Brilliantov, A. Beinsen, B. Abel, U. Buck & R. Srama Sodium salts in E-ring ice grains from an ocean below the surface of Enceladus,  Nature,  459 (2009)  pp. 1098 -1101 
 

 

92. N. V. Brilliantov, A. S. Bodrova and P. L. Krapivsky, A model of ballistic aggregation and fragmentation,  J. Stat. Mech.,  P06011 (2009)    doi: 10.1088/1742-5468/2009/06/P06011 pdf
 

 

91. N.V. Brilliantov and J. Schmidt, Aggregation kinetics in a flow: The role of particle-wall collisions, Eur. Phys. J.   171 (2009) pp. 15–20.  pdf
 

 

90.  A. S. Bodrova and N. V. Brilliantov, Granular gas of viscoelastic particles in a homogeneous cooling state, Physica A,  388  (2009)  pp. 3315-3324.  pdf
 

 

89.  A. S. Bodrova,  N. V. Brilliantov and A. Yu. Loskutov, Brownian motion in granular gases of viscoelastic particles, Journal of  Experimental and Theoretical Physics, 109 (2009) pp. 946-953.  pdf 
 
 2008.

 

88. J. Schmidt, N. Brilliantov,  F. Spahn, and S. Kempf, 
      Formation of Enceladus’ Dust Plume,
      Nature,  451 (2008)  pp. 685-688. pdf    Supplementary pdf

 

87. N. Brilliantov, J.Schmidt and F. Spahn, Geysers of Enceladus: Quantitative analysis of qualitative  models, Planetary and Space Science, 56    (2008),  pp. 1596-1606. pdf
 
 86. N. Brilliantov, A.  Bodrova and F. Spahn,   
      Dynamic equilibrium in aggregating and shattering systems,
      In Proceedings  of the International Conference Advanced Problems in
      Mechanics  2008,     pp. 567-575. (St. Petersburg 2008).

85. T. Poeschel, N. Brilliantov, A. Formella, M. Heckel, C. Krulle, P. Muller,  C.  Saluena and T. Schwager,  Contact of granular particles and the simulation of rapid  flows using  event-drive molecular  dynamics,  European Journal of Environmental and Civil Engineering,  12  (2008) pp. 827-870.

 

 
 

 


2007
 
 

 

 
 
 

 

84. N. V. Brilliantov, N. Albers,  F. Spahn, and T. Poeschel,
      Collision dynamics of granular particles with adhesion,
      Phys. Rev. E,  76, (2007) 051302. pdf

83. N. Brilliantov, T.Poeschel, T. Kranz and A. Zippelius,
      Translations and Rotations are correlated in Granular Gases,
     Phys. Rev. Lett., 98, (2007) 128001. pdf

82. T. Poeschel, N. Brilliantov and A. Formella,
       Granular Gas Cooling and Relaxation to the Steady State in Regard to the
       Overpopulated Tail of the Velocity Distribution,
       International Journal of Modern Physics C, 18,  (2007)  701-711. pdf

81. N. Brilliantov, J.Schmidt and F.Spahn,
     Nucleation and Growth of a Solid Phase in a Gas expanding into Vaccum,
     International Journal of Modern Physics C, 18   (2007)  676-684.  pdf

2006

 
 

 

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
 
 

 

79. T. Poeschel, N. Brilliantov and A. Formella,
      Impact of high-energy tails on granular gas properties,
      Phys. Rev. E, 74,  (2006) 041302.  pdf
 
 

 

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

77. N. Brilliantov and F. Spahn,
     Dust coagulation in equilibrium molecular gas,
     Mathematics and Computers in Simulation, 72,  (2006) 93-98. pdf
 
 

 

2005

 
 

 

76. T. Poeschel, T. Schwager, N. V. Brilliantov and A. Zaikin,
      Rolling friction and bistability of rolling motion,
      in Powders and Grains, pp. 505-509.
      Ed. by R. Garcia-Rojo, H.J. Herrmann and S. McNamara,
      Balkema Publishers (New York, 2005).

75.  N. Brilliantov and T. Poeschel,
      Adhesive interactions of viscoelastic spheres,
     in Powders and Grains, pp. 1247-1253.
      Ed. by R. Garcia-Rojo, H.J. Herrmann and S. McNamara,
      Balkema Publishers (New York, 2005).

74. T. Poeschel, N. Brilliantov, T. Schwager,
       Transient clusters in granular gases,
       J. Phys. C: Condens. Mat.
, 17, (2005) S2705-S2713.
 
 

 

73. N. Brilliantov and T. Poeschel, 
      Self-diffusion in granular gases:Gree-Kubo versus Chapman-Enskog, 
      Chaos, 15 (2005) 026108.  pdf
 
 

 

72. T. Poeschel, N. V. Brilliantov and A. Zaikin,
      Bistability and noise-enhanced velocity of rolling motion,
      Europhys. Letters,  69, (2005) 371-377.

 

 

 

2004

 

 

 


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

 

 

 

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

 

 

 

67. N.V.Brilliantov and T.Poeschel,
        Kinetic Theory of Granular Gases,
        Oxford University Press,  2004

 

 

 



2003

 

 

 


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

 

 

 

64. T.Poeschel, N.V. Brilliantov, and C. Frommel,
      Kinetics of Prion Growth,
      Biophysical Journal,  85,  (2003)  3460-3474.  pdf

 

 

 

63. N.V.Brilliantov, T. Pöschel,
      Hydrodynamics and transport coefficients for Granular Gases,
      Phys. Rev. E, 67, (2003), 061304.     pdf

 

 

 

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

 

 

 



2002

 

 

 



61. T.Poeschel, N.V. Brilliantov, and T. Schwager,
      Violation of Molecular Chaos in dissipative gases,
       Int. J. Mod. Phys. C, 13, (2002) 1263-1272.

 

 

 

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

 

 

 

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.

 

 

 



2001

 

 

 



56. T. Poeschel and N. V. Brilliantov,
      Extremal collision sequences of particles on a line:  optimal transmission of kinetic energy,
      Phys. Rev. E, 63, (2001) 021505.   pdf

 

 

 

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).

 

 

 



2000

 

 

 



53.  N.V.Brilliantov and T.Poeschel,
       Self-diffusion in granular gases,
       Phys.Rev. E, 61, (2000) 1716-1721.  pdf

 

 

 

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

 

 

 

51. N. V. Brilliantov and T. Poeschel,
      Velocity distribution in granular gases of viscoelastic particles,
      Phys. Rev. E, 61, (2000) 5573-5587.   pdf

 

 

 

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

 

 

 



1999

 

 

 


47. R. Ramírez, T. Poeschel, N. V. Brilliantov, T. Schwager,
      Coefficient of restitution of colliding viscoelastic spheres.
      Phys. Rev. E, 60, (1999) 4465.   pdf

 

 

 

46. N. V. Brilliantov, T. Poeschel,
      Rolling as a "continuing collision",
      Europ. Phys. J. B, 12, (1999) 299-301.  pdf

 

 

 

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

 

 

 



1998

 

 

 



44. N.V.Brilliantov, D.V.Kuznetsov and  R.Klein,
      Chain Collapse and Counterion Condensation in Dilute Polyelectrolyte Solutions,
      Phys. Rev. Lett., 81,  (1998) 1433.  pdf

 

 

 

43. N.V.Brilliantov and T.Poeschel,
      Rolling friction of a soft sphere on a hard plane.
      Europhys. Letters, 42  (1998) 511.    pdf

 

 

 

42. N.V.Brilliantov,
      Effective magnetic Hamiltonian and Ginzburg criterion for fluids.
      Phys. Rev. E,  58, 2628 (1998).   pdf

 

 

 

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

 

 

 

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

 

 

 

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

 

 

 

36. N.V. Brilliantov,
      Accurate First-Principle Equation of State for the One-Component Plasma,
      Contrib.  to Plasma Physics,  38 (1998) N4, 489-499.  pdf

 

 

 



1997

 

 

 



35.  N.V.Brilliantov, Yu.A.Andrienko, P.L.Krapivsky,
       Pattern formation in size-polydisperse adsorption:Transition to order.
       Physica A, 239 (1997) 267-275.  pdf

 

 

 



1996

 

 

 



34. N.V.Brilliantov, Yu.A.Andrienko, P.L.Krapivsky, and J.Kurths,
      Fractal formation and ordering in random sequential adsorption.
      Phys. Rev. Lett., 76 (1996) 4058-4061.    pdf

 

 

 

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

 

 

 

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.

 

 

 



1995

 

 

 



30. J.-M.Hertzsch, F.Spahn, and N.V.Brilliantov,
      On low-velocity collisions of viscoelastic particles.
      J. de Phys. II France, 5 (1995) 1725 - 1738.

 

 

 

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.

 

 

 



1994

 

 

 



28. N.V.Brilliantov, Yu.A.Andrienko, and P.L.Krapivsky,
      Random Space-Filling Tiling: Fractal Properties and Kinetics.
      J. Phys. A: Math. Gen.,  27 (1994) L381-L386.   pdf

 

 

 

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).

 

 

 



1993

 

 

 



24. N.V.Brilliantov,
      Phase Transitions in Solutions of Variably Ionizable Particles.
      Phys. Rev. E, 48 (1993) 4536.  pdf

 

 

 

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.

 

 

 



1992

 

 

 



22. Yu.A.Andrienko, N.V.Brilliantov,  and P.L.Krapivsky,
      Nucleation and growth in systems with many stable phases.
      Phys.  Rev.  A,   45 (1992) 2263-2269.   pdf

 

 

 

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.

 

 

 



1991

 

 

 



19. N.V.Brilliantov, V.P.Denisov, and P.L.Krapivsky,
      Generalized Stokes-Einstein-Debye relation for charged Brownian particles in solution.
      Physica A, 175 (1991) 293-304.

 

 

 

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.

 

 

 



1990

 

 

 



16.  N.V.Brilliantov, A.I.Rudenko, Yu.V.Shcherbakov and V.V.Zverev,
      Anomalous low temperature annealing of electron irradiated lithium-doped silicon solar cell,
      Physica  Status  Solidi A, 121 N2 (1990) K155-K158.

 

 

 

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).

 

 

 



1989

 

 

 



13. N.V.Brilliantov, A.I.Kviatkievich, Yu.M.Petrusievich and O. P. Revokatov,
      Rotational Brownian motion of polar macromolecules in  solutions.
      Dokl. Akad. Sci. USSR,  304,  N2  (1989) 340-345  (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).

 

 

 



1983-1988

 

 

 


 9.  N.V.Brilliantov, A.I.Kviatkievich, Yu.M.Petrusievich and O. P. Revokatov,
      Influence  of  macromolecule s  dipolar moment on the frequency dependence
      of the NMR-relaxation  coefficients of biopolymers  in  solution.
      Radiospektroskopiya, Perm, 1988, 150-154 (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).

 

 

 

Back to my main page

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

z

Share this page:

Contact details

Department of Mathematics
University of Leicester
University Road
Leicester LE1 7RH
United Kingdom

Tel.: +44 (0)116 229 7407

Campus Based Courses

Undergraduate: mathsug@le.ac.uk
Postgraduate Taught: mathspg@le.ac.uk

Postgraduate Research: pgrmaths@le.ac.uk

Distance Learning Course  

Actuarial Science:

DL Study

Student complaints procedure

DisabledGo logo

The University of Leicester is committed to equal access to our facilities. DisabledGo has detailed accessibility guides for College House and the Michael Atiyah Building.