ITMO University Saint Petersburg National Research University of Information Technologies, Mechanics and Optics
PhysNano

International research and
education center for
Physics of Nanostructures

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Dmitriy A. Vakulin

Dmitriy A. Vakulin

Ph.D.

Education

Ph.D.

ITMO University
  1. D. A. Vakulin, A. V. Ivanov. Simulation of frequency dependence of dielectric susceptibility for description of director reorientation dynamics of nematic LC. Journal of Physics: Conference Series, 633 012078 (2015)
  2. D. A. Vakulin, D. A. Frenkel, E. O. Gavrish, E. A. Konshina. Impact of Doping CdSe/ZnS Quantum Dots on the Elasticity Coefficients of Nematic. Molecular Crystals and Liquid Crystals, 612(1) 110-116 (2015)
  3. D. A. Vakulin. A Technique for determining the director pretilt angle in cells with hybrid or homeotropic alignment of a nematic liquid crystal. Technical Physics Letters, 41(12) 1116-1119 (2015)
  4. A. A. Karetnikov, L. P. Amosova, D. A. Vakulin, N. A. Karetnikov, A. P. Kovshik, I. P. Kolomiets, E. I. Ryumtsev. Determination of the director pretilt angle at liquid-crystal layer boundaries by polarimetric and crystal rotation methods in the same cell. Optics and Spectroscopy, 119(6) 1052-1055 (2015)
  5. A. V. Ivanov, D. A. Vakulin. Simulation of a symmetric optical response from a hybrid-aligned structure of a dual-frequency nematic liquid crystal. Optics and Spectroscopy, 119(6) 1015-1021 (2015)
  6. E. O. Gavrish, I. F. Galin, E. A. Konshina, D. A. Vakulin. Comparison the Properties of LC Cells with CdSe/ZnS QDs Embedded Into Nematic LC Matrix and the Polyimide Alignment Layer. Molecular Crystals and Liquid Crystals, 615(1) 50-56 (2015)
  7. D. P. Shcherbinin, D. A. Vakulin, E. A. Konshina. Electric method for studying reorientation dynamics of the nematic liquid crystal director. Technical Physics, 61(7) 1039-1045 (2016)
  8. E. A. Konshina, I. F. Galin, E. O. Gavrish, D. A. Vakulin. The doping of the polyimide alignment layer by semiconductor quantum dots. AIP Advances, 3(8) 082104 (2013)
  9. A. V. Ivanov, D. A. Vakulin, E. A. Konshina. Symmetrical optical response in the hybrid-oriented twist structure of a dual-frequency nematic liquid crystal. Journal of Optical Technology, 81(3) 130-134 (2014)
  10. E. A. Konshina, D. A. Vakulin, N. L. Ivanova, E. O. Gavrish, V. N. Vasil’ev. Optical response from dual-frequency hybrid-aligned nematic liquid crystal cells. Technical Physics, 57(5) 644-648 (2012)
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