References
- Lekkerkerker H. Thermodynamic analysis of the oscillatory convective instability in homeotropic nematics heated from below. J De Phys Colloq. 1979;40;C3:67–72.
- Thomas L, Pesch W, Ahlers G. Rayleigh-Benard convection in a homeotropically aligned nematic liquid crystal. Phys Rev E. 1998;58:5885–5897.
- Hertrich A, Decker W, Pesch W, et al. The electrohydrodynamic instability in homeotropic nematic layers. J De Phys II. 1992;2:1915–1930.
- Börzsönyi T, Buka A, Krekhov AP, et al. Response of a homeotropic nematic liquid crystal to rectilinear oscillatory shear. Phys Rev E. 1998;58:7420–7427.
- for example. Blinov L. Structure and properties of liquid crystals. New York(NY): Springer; 2011. p. 304–312.
- Nehring J, Saupe A. On the Schlieren texture in nematic and smectic liquid crystals. J Chem Soc Faraday Trans. 1972;68:1–15.
- Rapini A. Umbilics: static properties and shear-induced displacements. J De Phys. 1973;34:629–633.
- Leslie FM. Theory of flow phenomena in liquid crystals. Adv Liq Cryst. 1979;4:1–81.
- Stewart IW. The static and dynamic continuum theory of liquid crystals. London(UK): Taylor and Francis; 2004.
- Brochard F. Backflow effects in nematic liquid crystals. Mol Cryst and Liq Cryst. 1973;23:51–58.
- Blinov L. Behaviour of liquid crystals in electric and magnetic fields. Goodby JW, Collings PJ, Kato T. et al. editors. Handbook of liquid crystals. Vol. 2. Weinheim (DE): Wiley -VCH; 2014.
- Dierking I, Marshall O, Wright J, et al. Annihilation dynamics of umbilical defects in nematic liquid crystals under applied electric fields. Phys Rev E. 2005;71:061709.
- Galatola P, Oldano C, Rajteri M. Thermal-fluctuation approach to Freedericksz transition in nematic liquid crystals. Phys Rev E. 1994;49:1458–1467.
- Pieranski P, Yang B, Burtz LJ, et al. Generation of umbilics by magnets and flows. Liq Cryst. 2013;40:1593–1608.