References
- Fukuda A, Takanishi Y, Isozaki T, et al. Antiferroelectric chiral smectic liquid crystals. J Mater Chem. 1994;4:997–1016.
- Takazoe H, Górecka E, Čepič M. Antiferroelectric liquid crystals: interplay of simplicity and complexity. Rev Mod Phys. 2010;82:897–937.
- Hoffmann J, Nowicka K, Kuczyński W, et al. Experimental evidence of soft mode in the smectic C*α phase of chiral ferroelectric liquid crystals. Soft Mat. 2014;10:8548–8557.
- Nowicka K, Kuczyński W. Non-linear electro-optical effects in the study of the helical smectic liquid crystals. Phase Trans. 2016;89:376–382.
- Piecek W, Bubnov A, Perkowski P, et al. An effect of structurally non-compatible additive on the properties of a long-pitch orthoconic antiferroelectric mixture. Phase Trans. 2010;83:551–563.
- Chełstowska A, Czerwiński M, Tykarska M. The influence of antiferroelectric compounds on helical pitch of orthoconic W-1000 mixture. Liq Cryst. 2014;41:812–820.
- Perkowski P, Mrukiewicz M, Żurowska M, et al. Dielectric modes in antiferroelectric liquid crystal observed at low temperatures. Liq Cryst. 2013;40:864–870.
- Nowicka K, Knapkiewicz M, Bielejewska N, et al. Application of second-harmonic electro-optical measurements in the study of polar liquid crystal phases. Liq Cryst. 2016;43:1778–1783.
- Kuczyński W. Electrooptical studies of relaxation processes in chiral liquid crystals. In: Haase W, Wróbel S, editors. Relaxation phenomena in liquid crystals. Berlin: Springer-Verlag; 2003. p. 422–444.
- Kuczyński W, Dardas D, Goc F, et al. Linear and quadratic electrooptic effects in antiferroelectric liquid crystals. Ferroelectrics. 2000;244:191–199.
- Fajar A, Bourny V, Orihara H. Nonlinear electrooptical measurements in the smectic-Cα* phase. Jpn J App Phys. 2003;42:182–185.
- Bourny V, Pavel J, Lorman V, et al. Phase transitions in the antiferroelectric liquid crystal C8 tolane determined by dielectric and electro-optical measurements. Liq Cryst. 2000;27:559–566.
- Fajar A, Orihara H, Bourny V, et al. Electrooptic measurement in the vicinity of SmA–SmCα* phase transition of an antiferroelectric liquid crystal. Jpn J Appl Phys. 2000;39:L166.
- Dardas D, Kuczyński W, Hoffmann J, et al. Non-linear electrooptic effect in antiferroelectric liquid crystal. Opto-Electro Rev. 2009;17:25–29.
- Nowicka K. A reliable method for detecting phase transitions in liquid crystals with polar order. Liq Cryst. 2014;41:197–201.
- Nowicka K. Linear and non-linear electro-optical measurements in the study of polar liquid crystal phases. Liq Cryst. 2016;43:1276–1281.
- Panarin YP, Kalinovskaya O, Vij JK. The investigation of the relaxation processes in antiferroelectric liquid crystals by electro-optic spectroscopy. App Phys Lett. 1998;72:1667–1669.
- Panarin YP, Kalinovskaya O, Vij JK. The investigation of the relaxation processes in antiferroelectric liquid crystals by broad band dielectric and electro-optic spectroscopy. Liq Cryst. 1998;25:241–252.
- Orihara H, Ishibashi Y. Electro-optic effect and third-order nonlinear dielectric response in antiferroelectric liquid crystals. J Phys Soc Japan. 1995;64:3775–3786.
- Dardas D, Kuczyński W, Hoffmann J. Measurements of absolute values of electrooptic coefficients in a ferroelectric liquid crystal. Phase Trans. 2006;79:213–222.