2006
1. Orientational relaxation processes in Langmuir films under lateral compression.
A. V. Zakharov,
Thin Solid Films 509, 64 (2006).tsf061.pdf
2. Вращательная переориентация директора в нематических твистовых ячейках.
А. В. Захаров и А. А. Вакуленко,
ФТТ, 48, 927 (2006) ftt061.pdf
3. Nematiclike viscosity coefficients of ferroelectric liquid crystals in their SmC phase.
A. V. Zakharov, V. Domenici, C. A. Veracini, and R. Y. Dong,
Phys. Rev. E73, 011711 (2006).pre061.pdf
4. Monolayer alignment on azobenzene surfaces during UV light irradiation: Analysis of
optical
polarized absorption measurement results and theoretical treatment.
A. V. Zakharov, Dai Taguchi, Takaaki Manaka, and Mitsumasa Iwamoto,
J. Chem. Phys. 124, 024701 (2006).jcp0106.pdf
2005
5. Orientational relaxation processes in Langmuir films under lateral compression.
A.V. Zakharov,
Thin Solid Films (in press) (2005).
6. Intrinsic torsional reorientations in a twisted nematic liquid crystal cell.
A.V. Zakharov and A. A. Vakulenko,
Phys. Rev. E72, 021712 (2005). pre051.pdf
7. Molecular dynamics in smectic A and C* phases in a long-chain ferroelectric liquid
crystal: 2H NMR, dielectric properties and theoretical treatment.
Valentina Domenici, Marco Geppi, Carlo Alberto Veracini, and Alexandre V. Zakharov,
J. Physical Chemistry, B109 18369 (2005). jpc051.pdf
4.
Effect of Silica Aerosils on the Kinetiks of the Nematic to Isotropic Interface
A.V. Zakharov and J. Thoen,
The European Physical Journal, E17, 447 (2005).epje051.pdf
2004
5. Relaxation Processes in Langmuir Films Under Lateral Compression.
A.V. Zakharov and Mitsumasa Iwamoto,
Phys. Rev. E69 061607 (2004).pre043.pdf
6. Pretransitional Anomalies in the Shear Flow near a Second Order Nematic – Smectic A
Phase Change.
A. V. Zakharov and J. Thoen, Phys. Rev. E69, 051709 (2004).pre042.pdf
7. Shearing Flow Regime near a Second Order Nematic – Smectic A Phase Transition.
A. V. Zakharov and A. A. Vakulenko,
Physics of the Solid State, (Fiz. Tverd. Tela (St. Petersburg)) 46, 1504 (2004).
8. The Effect of Silica Aerosils on the Nematic to Isotropic Transition: A Theoretical Treatment.
A. V. Zakharov and J. Thoen, Phys. Rev. E69, 011704 (2004).pre041.pdf
2003
7. Orientational Relaxation Phenomena in Langmuir – Blodgett Films at the Air – Water
Interface.
A. V. Zakharov, A. A. Vakulenko, and Mitsumasa Iwamoto,
Phys. Rev. E68, 031603 (2003).pre031.pdf
8. Flexoelectric Effect and Statistical Properties in Polar Liquid Crystals.
A..V. Zakharov and A. A. Vakulenko,
Crystallography Reports, 48, 686 (2003).Cr031.pdf
9. Homeotropic-planar anchoring transition induced by trans – cis isomerization in ultrathin
polyimid Langmuir-Blodgett films.
A. V. Zakharov and Mitsumasa Iwamoto,
J. Chem. Phys. 118, 10758 (2003).jcp032.pdf
10. Shearing Flow in a Nematic Liquid Crystal near a Charged Surface.
A.V. Zakharov and A. A. Vakulenko,
Physics of the Solid State,(Fiz.Tverd. Tela (St.Petersburg)) 45, 1135 (2003).
11. Tumbling instability in a shearing nematic liquid crystal:
Analysis of broadband dielectric results and theoretical treatment.
A.V. Zakharov, A.A. Vakulenko and J. Thoen,
J. Chem. Phys. 118, 4253 (2003).jcp031.pdf
12. Dynamic and dielectric properties of polar liquid crystals.
A.V. Zakharov and L.V. Mirantsev,
Physics of the Solid State, (Fiz. Tverd. Tela (St.Petersburg)) 45, 183 (2003).
2002
13. Surface Induced Smectic Ordering Effect in Thin Nematic Liquid Crystal Cell.
A.V. Zakharov and J. Thoen,
The European Physical Journal, E9, 461 (2002)
14. Monolayers at the Air – Water Interface: Maxwell – Displacement Current and Optical
Second Harmonic Studies and Theoretical Treatment.
A.V. Zakharov and Mitsumasa Iwamoto,
Phys. Rev. E66, 061605 (2002) pre022.pdf
15.
Flow Alignment in Shearing Nematic Liquid Crystal Near a Charged Surface.
A.V. Zakharov and Ronald Y. Dong,
Phys. Rev. E65, 052701 (2002). pre021.pdf
16. Two Shear Flow Regimes in Nematic Liquid Crystals: Near a Charged Surface and in the
Bulk.
A.V. Zakharov and Ronald Y. Dong,
J. Chem. Phys. 116, 6348 (2002).jcp02.pdf
17. Rotational Viscosity Enhancement in Nematic Liquid Crystal near a Charged Surface.
A.V. Zakharov and Ronald Y. Dong,
The European Physical Journal, E7, 267(2002).epje02.pdf
18. Elastic Properties of Liquid Crystals.
M.N. Tsvetkova, V.G. Korsakov and A.V. Zakharov,
Physics of the Solid State, (Fiz. Tverd. Tela (St. Petersburg)) 44, 1795 (2002). ftt02.pdf
2001
19. The Flexoelectric Effect in Nematic Liquid Crystals: An Integral Equation Approach.
A.V. Zakharov and Ronald Y. Dong,
The European Physical Journal, E6, 3 (2001). epje013.pdf
20. Surface Polarization and Effective Anchoring Energy in Liquid Crystals.
A.V. Zakharov and Ronald Y. Dong,
Phys. Rev. E64, 042701 (2001).pre013.pdf
21. Dielectric and elastic properties of liquid crystals.
A.V. Zakharov and Ronald Y. Dong,
Phys. Rev. E64, 031701 (2001) pre012.pdf
22. Theoretical investigations of rotational phenomena and dielectric properties in a nematic
liquid crystal.
A.V. Zakharov and A. Maliniak,
The European Physical Journal, E4, 435 (2001). epje012.pdf
23. Rotational viscosity, dynamic phenomena and dielectric properties in a long –
chain liquid crystals: NMR study and theoretical treatment.
A.V. Zakharov and Ronald Y. Dong,
Phys. Rev. E63, 011704 (2001). pre011.pdf
24. Structure and elastic properties of a nematic liquid crystal:
A theoretical treatment and molecular dynamics simulation.
A.V. Zakharov and A. Maliniak,
The European Physical Journal, E4, 85 (2001). epje011.pdf
2000
25. Structure and thermodynamics of liquid crystals near a surface.
A.V. Zakharov and L.V. Mirantsev
Surface Investigation: X-ray, Synchrotron and Neutron Technique.
( Poverkhnost: Rent. Sinkhrot. Neitron. Issled. ( Moscow )) 3, 22 (2000).
1999
26. Statistical mechanical calculations of surface properties of liquid crystals.
A.V. Zakharov and L.V. Mirantsev,
Crystallography Reports (Kristallographya (Moscow)) 44, 492 (1999).
27. Influence of regular microrilief of solid substrate surface on the
Fredericksz effect in thin nematic liquid crystal layer.
L.V. Mirantsev and A.V. Zakharov,
Crystallography Reports (Kristallographya (Moscow)) 44, 645 (1999).
28. Statistical mechanical study of the pair correlations for the dipolar Gay - Berne model.
A.V. Zakharov, S. Romano, and A. Maliniak,
Phys. Rev. E60, R1142 (1999). pre991.pdf
29. Rotational viscosity in a nematic liquid crystals: theoretical treatment and
molecular dynamics simulation.
A.V. Zakharov, A.V. Komolkin, and A. Maliniak,
Phys. Rev. E59, 6802 (1999).pre992.pdf
30. The effect of surface roughness of a solid substrate on its wetting by a smectic
A structure in the nematic phase of a liquid crystal.
L.V. Mirantsev, A.V. Zakharov, and V.G. Korsakov,
Physics of the Solid State, (Fiz. Tverd. Tela (St. Petersburg)) 41, 306 (1999). ftt99.pdf
1998
31. Structural and elastic properties of the dipolar Gay - Berne model.
A.V. Zakharov, S. Romano,
Phys. Rev. E58, 7428 (1998). pre981.PDF
32. Effect of bounding surface on the rotational viscosity of liquid crystals.
A.V. Zakharov,
Physics of the Solid State, (Fiz.Tverd.Tela (St.Petersburg)) 40, 1765 (1998). ftt982.pdf
33. Influence of the surface on the elastic properties of liquid crystals.
A.V. Zakharov, L.V. Mirantsev,
Physics of the Solid State, (Fiz. Tverd. Tela (St.Petersburg)) 40, 1356 (1998) ftt981.pdf
1997
34. Statistical mechanical calculations of the surface free energy and anchoring transitions.
A.V. Zakharov,
Mol. Cryst. Liq. Cryst. 301, 129 (1997).
35. Conditional distribution function approach to the theory of anchoring transitions.
A.V. Zakharov,
Phys. Lett. A229, 63 (1997).
1996
36. Conditional distribution function approach to the theory of fully ordered
Gay - Berne crystals.
A.V. Zakharov,
Phys. Lett. A219, 102 (1996). pla96.pdf
1995
37. Conditional distribution function approach to the theory of the solid – nematic fluid interface.
A.V. Zakharov,
Phys. Rev. E51, 5880 (1995).
38. Statistical - mechanical theory of systems composed of interacting ellipsoidal molecules at a
solid surface.
A.V. Zakharov,
Mol. Cryst. Liq. Cryst., 270, 37 (1995).
39. Statistical - mechanical model for calculating equilibrium properties of
systems composed of interacting ellipsoidal molecules near at a solid surface.
A.V. Zakharov,
Mol. Cryst. Liq. Cryst., 264, 191 (1995).
1994
40. Rotational viscosity of nematic liquid crystals near an interacting wall.
A.V. Zakharov,
Phys. Lett. A193, 471 (1994).
41. Elastic constants of a system composed of interacting ellipsoidal molecules near an interacting
wall.
A.V. Zakharov,
Phys. Lett. A187, 331 (1994).
1993
42. Molecular model for rotational self-diffusion in a nematic liquid crystals.
E.T. Brook-Levinson and A.V. Zakharov,
Europhys. Lett. 22, 439 (1993).
1992
43. A statistical mechanical model for calculating equilibrium properties of a nematic liquid
crystals.
E.T. Brook-Levinson, A.V. Zakharov, and V. B. Nemtsov,
J. Phys. (Paris) 2, 2075 (1992).
1991
44. Structure and elastic constants for systems composed of ellipsoidal molecules
Interacting through angle-dependent nonseparable pair potentials.
A.V. Zakharov,
Physica A175, 327 (1991).
45. Statistical mechanical study of the translational self-diffusion coefficients
for systems composed of ellipsoidal moleculesinteracting through angle –
dependent nonseparable pair potentials.
A.V. Zakharov,
Physica A174, 235 (1991).
1990
46. Statistical mechanical study of the pair correlations for systems composed of
ellipsoidal molecules interacting through angle-dependent nonseparable pair
potentials.
A.V. Zakharov,
Chem. Phys. Lett. 170, 239 (1990).
47. Statistical mechanical study of smectic A liquid crystals composed of ellipsoidal molecules.
A.V. Zakharov,
Physica A166, 540 (1990).
1989
48. Statistical mechanical theory of polar fluids for all densities.
A.V. Zakharov, E.L. Aero,
Physica A160, 157 (1989).
49. Statistical mechanical description of the structure and elastic constants of
the nematic fluids.
E.T. Brook-Levinson, A.V. Zakharov, and V.B. Nemtsov,
Dokl. Akad. Nauk BSSR 33, 982 (1989).
50. Statistical mechanical study of the pair correlations for a liquid with non- central forces.
A.V. Zakharov, E.L. Aero,
Chem. Phys. Lett. 162, 39 (1989).
1988
51. Elastic deformations of liquid crystals, their stability and applications in technology.
E.L. Aero and A.V. Zakharov,
( review ) Advances in Science and Technology of VINITI (Itogi Nauki i Tekhniki
VINITI)} (In Russian) Ser.Complex and Special Sections of Mechanics}, 3,
163 (1988).
52. Molecular theory of nematic liquid crystals.
E.T. Brook-Levinson and A.V. Zakharov,
J. Engin. Phys. (Transl. from Russian, Plenum Pb. Cor.) (Inzhenerno-fizicheski
zhurnal) (Minsk) 54, 188 (1988).
53. Free Surface Energy and Energy of Dynamic Interaction of Point Defects With
a Crystalline Surface.
E.T. Brook-Levinson, I.N. Gospodarev, A.V. Zakharov, and E.S. Syrkin,
Izvestia Akad. Nauk BSSR, 3, 78 (1988).
1986
54. Statistical mechanical description of the molecular crystals: structural
properties near a surface.
E.T. Brook-Levinson and A.V. Zakharov,
Dokl. Akad. Nauk BSSR 30, 1079 (1986).
55. Statistical mechanical theory of Stockmayer fluids.
E.T. Brook-Levinson, A.V. Zakharov, and L.A. Rott,
Dokl. Akad. Nauk BSSR 30, 917 (1986).
1983
56. Schottky point defects in the molecular and ionic crystals: statistical
mechanical description.
E.T. Brook-Levinson and A.V. Zakharov,
J. Engin. Phys. (Transl. from Russian, Plenum Pb. Cor.)
(Inzhenerno-fizicheskii zhurnal) (Minsk) 44, 244 (1983).
57. Statistical mechanical description of the fast – ionic conduction.
E.T. Brook-Levinson and A.V. Zakharov,
Dokl. Akad. Nauk BSSR 27, 524 (1983).
1982
58. Estimations of the free surface energy and surface tension of the molecular crystals.
A.V. Zakharov,
Proc. A. V. Lykov Inst. of Heat and Mass Transf. Beylorussian Acad. Sci.
Minsk, 51, (1982).
1980
59. Rare gas solids with vacancies: statistical mechanical description.
E.T. Brook-Levinson and A.V. Zakharov,
Dokl. Akad. Nauk BSSR 25, 514 (1980).
1978
60. On the statistical-mechanical theory of interstitials in an equilibrium rare
gas crystals.
E.T. Brook - Levinson, A.V. Zakharov,
Dokl. Akad. Nauk BSSR 22, 990 (1978).
61. On the possibility of delocalization of interstitials in rare gas solids.
E.T. Brook-Levinson and A.V. Zakharov,
Phys. Lett. A68, 268 (1978).
1975
62. The transport properties of non-full ionized plasma in two temperatures approach.
A.V. Zakharov,
Proc. A. V. Lykov Inst. of Heat and Mass Transf. Beylorussian Acad. Sci.,
Minsk, USSR, 183 (1975).