Local electronic liquid crystallinity and topological defects, application to high Tc cuprate STM data

Andrej Mesaros; Jan Zaanen; Subir Sachdev; J.C. Davis; Michael J. Lawler; Eun-Ah Kim

Local electronic liquid crystallinity and topological defects, application to high Tc cuprate STM data

ORAL

Abstract

The patterns observed in STM measurements on underdoped cuprates motivate a theoretical approach based on electronic liquid crystalline ordering. Here, nematic and smectic order parameters describe $C_4$ point group symmetry breaking and the stripe-like $4a/3$ wavelength modulations. We study the interplay of these two order parameter fields and their topological defects guided by local microscopic considerations. In this light, we analyze published STM data on BSCCO to extract specific information including phase of the $4a/3$ modulations (copper or oxygen centered) and relations between the two types of local ordering.

March 15, 2010, 12:39 PM – March 15, 2010, 12:51 PM

Authors

Andrej Mesaros
- University of Leiden
Jan Zaanen
- University of Leiden
- Instituut-Lorentz, Universiteit Leiden
Subir Sachdev
- Harvard University
J.C. Davis
- Cornell University
- Cornell University, Brookhaven National Lab, University of St. Andrews
- Cornell University, University of St. Andrews, Brookhaven National Laboratory
- Cornell U., BNL, U. of St. Andrews, U. of British Columbia
Michael J. Lawler
- SUNY at Binghamton, Cornell University
- Cornell University
Eun-Ah Kim
- Cornell University
- Cornell Univerisity
- LASSP, Dept. of Physics, Cornell U.