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Research PapersNo Access

TILT ANGLE AND THE TEMPERATURE SHIFTS CALCULATED AS A FUNCTION OF CONCENTRATION FOR THE AC* PHASE TRANSITION IN A BINARY MIXTURE OF LIQUID CRYSTALS

Department of Physics, Middle East Technical University, 06531 Ankara, Turkey

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Department of Physics, Çanakkale 18 Mart University, 17100 Çanakkale, Turkey

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https://doi.org/10.1142/S0217979211058973Cited by:12 (Source: Crossref)

Abstract

We study here the tilt angle and the temperature shifts as a function of concentration for the AC* phase transition in a binary mixture, using our mean field model with the biquadratic P²θ² coupling — and also with the bilinear Pθ and P²θ² couplings. By expanding the free energy in terms of the tilt angle and polarization, the tilt angle and the temperature shift are evaluated by using the coefficients given in the free energy expansion. By employing a concentration-dependent coefficient, the tilt angle and the temperature shift are calculated as a function of concentration of 10.O.4 for the SmAC* transition in a binary mixture of C7 and 10.O.4.

Our calculated values of the tilt angle and the temperature shifts decrease as the concentration of 10.O.4 increases, as confirmed experimentally for the AC* transition in this binary mixture. This indicates that our mean field models studied here are satisfactory to explain the observed behavior of the AC* transition of the binary mixture of C7 and 10.O.4.

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Vol. 25, No. 13

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History

Received 1 November 2008

Revised 12 March 2010

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