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Article
Microscopic origins of heliclinic phases in smectic liquid crystals
Physical Review E
  • Jonathan J. Stott, Fairfield University
  • Rolfe G. Petschek
Document Type
Article
Article Version
Publisher's PDF
Publication Date
1-1-1999
Abstract
In a previous article [Phys. Rev. E 60, 1799 (1999)], the authors considered a model Landau free energy that explained the ferriclinic phases of chiral smectic liquid crystals as a series of short period helical modulations. In this paper we begin with a physically more realistic, more microscopic interlayer free energy and show how our previous work can be derived using only simple short-ranged interactions. We then discuss what additional information this provides about the Landau coefficients used previously to construct the phase diagram for the heliclinic phases of chiral smectic liquid crystals. Finally, we investigate a means for explicitly including chirality in our model.
Comments

©1999 American Physical Society

The final publisher PDF has been archived here with permission from the copyright holder.

Published Citation
Stott, Jonathan J., and Rolfe G. Petschek. "Microscopic origins of heliclinic phases in smectic liquid crystals." Physical Review E 60, no. 6 (1999): 6826.
DOI
10.1103/PhysRevE.60.6826
None
Peer Reviewed
Citation Information
Jonathan J. Stott and Rolfe G. Petschek. "Microscopic origins of heliclinic phases in smectic liquid crystals" Physical Review E Vol. 60 Iss. 6 (1999)
Available at: http://works.bepress.com/jonathan-stott/4/