• G. Derfel, M. Buczkowska, B. Pietrzyk, DIRECT CURRENT ELECTRIC FIELD INDUCED DEFORMATIONS OF DIELECTRICALLY ISOTROPIC FLEXOELECTRIC NEMATIC LAYERS, Scientific Bulletin TUL. Physics 32, 5-12, 2011
  • M. Buczkowska, Strong deformations induced by a DC electric field in homeotropic flexo-electric nematic layers, Liq. Cryst. 37(10), 1331-1337, 2010
  • M. Buczkowska, Strong deformations induced by dc electric field in homeotropic flexoelectric nematic layers, Liq. Cryst. 37(10), 1331-1337, 2010
  • M. Buczkowska, M. Machlowski, INFLUENCE OF STRONG FLEXOELECTRIC PROPERTIES ON DEFORMATIONS OF NEMATIC LIQUID LAYERS INDUCED BY DC ELECTRIC FIELD, Scientific Bulletin TUL. Physics 31, 5-12, 2010
  • G. Derfel, M. Buczkowska, J. Guzowski, DIELECTRIC AND FLEXOELECTRIC DEFORMATIONS INDUCED BY AC ELECTRIC FIELD IN INSULATING NEMATIC LAYERS, Scientific Bulletin TUL. Physics 31, 13-24, 2010
  • M. Buczkowska, G. Derfel, M. Konowalski, Numerical investigation of influence of ionic space charge and flexoelectric polarization on measurements of elastic constants in nematic liquid crystals, Opto-Electron. Rev. 17(2), 95-98, 2009
  • M. Buczkowska, K. Grzelczak, NUMERICAL STUDIES OF SIGNIFICANCE OF ANCHORING STRENGTH ENERGY FOR BEHAVIOUR OF FLEXOELECTRIC HOMEOTROPIC NEMATIC LAYER SUBJECTED TO DC ELECTRIC FIELD, Scientific Bulletin TUL. Physics 30, 5-18, 2009
  • M. Buczkowska, G. Derfel, M. Konowalski, Numerical investigation of influence of ionic space charge and flexoelectric polarization on measurements of elastic constants in nematic liquid crystals, Opto-Electron. Rev. 17(2), 95-98, 2009
  • M. Buczkowska, Influence of ions on stability of planar and homeotropic structures in hybrid aligned flexoelectric nematic layers subjected to electric field, Liq. Cryst. 35(10), 1199-1203, 2008
  • M. Buczkowska, G. Derfel, Role of ions mobility in flexoelectric deformations of conductive homeoptropic nematic layers, Scientific Bulletin TUL. Physics 29, 5-24, 2008
  • M. Buczkowska, Influence of ions on stability of planar and homeotropic structures in hybrid aligned flexoelectric nematic layers subjected to electric field, Liq. Cryst. 35 No 10, 1199-1203, 2008
  • G. Derfel, M. Buczkowska, Threshold voltage for purely flexoelectric deformations of conducting homeotropic nematic layers, Liq. Cryst. 34(1), 113-125, 2007
  • G. Derfel, M. Buczkowska, Threshold voltage for purely flexoelectric deformations of conducting homeotropic nematic layers, Liq. Cryst. 34 No. 1, 113-125, 2007
  • G. Derfel, M. Buczkowska, J. Parka, One dimensional model of dye-doped nematic layer for holography, Opto-Electron. Rev. 14(2), 2006
  • G. Derfel, M. Buczkowska, Flexoelectric deformations of homeotropic nematic layers confined between strongly blocking electrodes, Scientific Bulletin TUL. Physics 27, 9-15, 2006
  • G. Derfel, M. Buczkowska, J. Parka, One dimensional model of dye-doped nematic layer for holography, Opto-Electron. Rev. 14 No 2, 149-154, 2006
  • M. Buczkowska, G. Derfel, Influence of ionic transport on deformations of homeotropic nematic layers with positive flexoelectric coefficients, Liq. Cryst. 32(10), 1285-1293, 2005
  • G. Derfel, M. Buczkowska, Flexoelectric deformations of homeotropic nematic layers in the presence of ionic conductivity, Liq. Cryst. 32(9), 1183-1190, 2005
  • G. Derfel, M. Buczkowska, Flexoelectric deformations of homeotropic nematic layers in the presence of ionic conductivity, Liq. Cryst. 32 No 9, 1183-1190, 2005
  • M. Buczkowska, G. Derfel, Influence of ionic transport on deformations of homeotropic nematic layers with positive flexoelectric coefficients, Liq. Cryst. 32 No 10, 1285-1293, 2005