https://orcid.org/0000-0002-4139-1445
References
- Maier W, Saupe A. Eine einfache molekulare Theorie des nematischen kristallinflüssigen Zustandes. Z Naturforsch A. 1958;13:564–566.
- Maier W, Saupe A. Eine einfache molekular-statistische Theorie der nematischen kristallinflússigen Phase. Teil I Z Naturforsch A. 1959;14:882889.
- Maier W, Saupe A. Eine einfache molekular-statistische Theorie der nematischen kristallinflüssigen Phase. Teil II Z Naturforsch A. 1960;15:287292.
- Freiser MJ. Ordered states of a nematic liquid. Phys Rev Lett. 1970;24:10411043.
- McMillan WL. Simple molecular model for the smectic-A phase of liquid crystals. Phys Rev A. 1971;4:12381246.
- Matsushita M. On the possibility of a biaxial smectic A phase. Mol Cryst Liq Cryst. 1981;68:19.
- Brand HR, Pleiner H. The biaxial nematic-smectic C M transition in polymeric liquid crystals. Makromol Chem Rapid Commun. 1991;12:539545.
- Somoza AM, Tarazona P. Nematic-smectic-A-smectic-C transitions in systems of parallel hard molecules. Phys Rev Lett. 1988;61:25662569.
- Somoza AM, Tarazona P. Nematic and smectic liquid crystals of hard spherocylinders. Phys Rev A. 1990;41:965970.
- Mederos L, Sullivan DE. Molecular theory of smectic-A liquid crystals. Phys Rev A. 1989;39:854863.
- Evans GT. Liquid crystal smectic-A phases and issues of geometry. Molec Phys. 1992;76:13591374.
- Velasco E, Mederos L. A theory for the liquid-crystalline phase behavior of the GayBerne model. J Chem Phys. 1998;109:23612370.
- MartÃ-nez-Ratón Y, Velasco E. Nonuniform liquid-crystalline phases of parallel hard rod-shaped particles: from ellipsoids to cylinders. J Chem Phys. 2008;129:054907.
- Landau LD, Lifshitz EM. Statistical Physics. Oxford: Pergamon; 1958.
- Katriel J, Kventsel GF, Luckhurst GR, et al. Free energies in the Landau and molecular field approaches. Liq Cryst. 1986;1:337355.
- Drossinos Y, Ronis D. Molecular-field derivation of a generalized Landau free energy for the isotropic, nematic, smectic-A, and smectic-C phases of liquid crystals. Phys Rev A. 1986;33:589603.
- de Gennes PG. The physics of liquid crystals. Oxford: Oxford University Press; 1974.
- Tolédano JC, Tolédano P. The Landau theory of phase transitions. Singapore: World Scientific; 1987.
- de Gennes, Prost J. The Physics of Liquid Crystals. 2nd ed. Oxford: Oxford University Press; 1993.
- Neto AMF, Salinas SR. The physics of lyotropic liquid crystals. Oxford: Oxford University Press; 2005.
- de Oliveira MJ. Equilibrium thermodynamics. Heidelberg: Springer; 2013.
- Larin ES. Phase diagram of transitions from an isotropic phase to nematic and smectic (uniaxial, biaxial) phases in liquid crystals with achiral molecules. Phys Solid State. 2004;46:15601568.
- Biscari P, Calderer MC, Terentjev EM. Landau-de-Gennes theory of isotropic-nematic-smectic liquid crystal transitions. Phys Rev E. 2007;75:051707.
- Mukherjee PK. Nematic-smectic-A-smectic-C multicritical point: an alternative model. Eur Phys J E. 2010;33:175–181.
- Izzo D, de Oliveira MJ. Landau theory for uniaxial nematic, biaxial nematic, uniaxial smectic-A, and biaxial smectic-A phases. Liq Cryst. 2016;43:1230–1236.
- Shashidhar R, Ratna BR, Prasad SK. Nematic–smectic-A–smectic-C multicritical point in a single-component system. Phys Rev Lett. 1984;53:2141–2144.
- Martnez-Miranda LJ, Kortan AR, Birgeneau RJ. Phase diagram, fluctuations, and phase transitions near the liquid-crystal nematic–smectic-A–smectic-C multicritical point. Phys Rev A. 1987;36:2372–2383.
- Johnson D, Allender D, deHoff R, et al. Nematic, smectic-A, smectic-C polycritical point: experimental evidence and a Landau theory. Phys Rev B. 1977;16:470–475.
- DeHoff R, Biggers R, Brisbin D, et al. Nematic-smectic-A–smectic-C multicritical point. Phys Rev Lett. 1981;47:664–667.
- DeHoff R, Biggers R, Brisbin D, et al. Nematic-smectic-A–smectic-C multicritical point. Phys Rev A. 1982;25:472–480.
- Chen J-H, Lubensky TC. Landau-Ginzburg mean-field theory for the nematic to smectic-C and nematic to smectic-A phase transitions. Phys Rev A. 1976;14:1202–1207.
- Grinstein G, Pelcovits RA. Smectic-A–C transition in three dimensions. Phys Rev A. 1982;26:2196–2217.
- Benguigui L. A Landau theory of the NAC point. J Physique Colloque. 1979;40:419–421.
- Benguigui L. Lifshitz point in the smectic A phases. J Physique. 1983;44:273–278.
- Rosciszewski K. The mean-field type phase transition from smectic A to smectic C. Phys A. 1984;127:634–645.
- Andereck BS, Patton BR. A new theory of the nematic-smectic A-smectic C transition in liquid crystals. J Physique. 1987;48:1241–1245.
- Kallel A, Mlik Y. A theory of the phase diagram around the N-A-C point in liquid crystals. Phase Transitions. 1991;33:261–265.
- Pan XB. Landau-de Gennes model of liquid crystals and critical wave Number. Comm Math Phys. 2003;239:343–382.
- Saunders K. de Vries behavior in smectic liquid crystals near a biaxiality-induced smectic-A–smectic-C tricritical point. Phys Rev E. 2008;77:061708.
- Chen L, Toner J. Smectic-A to -C phase transition in isotropic disordered environments. Phys Rev E. 2013;87:042501.
- Emelyanenko AV, Khokhlov AR. Simple theory of transitions between smectic, nematic, and isotropic phases. J Chem Phys. 2015;142:204905.
- de Gennes PG. Some Remarks on the polymorphism of smectics. Mol Cryst Liq Cryst. 1973;21:49–76.
- Luckhurst GR, Timini BA. The tilt angle for the smectic C phase of n-hexyl 4ʹ-n-decyloxybiphenyl-4-carboxylate. Phys Lett A. 1979;75:91–93.
- Pelzl G. Tilt angle measurements in Sc Phases by dielectric reorientation. Cryst Res Technol. 1988;23:763–771.
- Gathania AK. Critical behaviour of the order parameters at the SmC* to SmA phase transition in a ferroelectric liquid crystal mixture. Liq Cryst. 2008;35:773–776.