Reorientation of anisotropy in a square well quantum hall sample.

W Pan T Jungwirth H L Stormer D C Tsui A H MacDonald S M Girvin L Smrcka L N Pfeiffer K W Baldwin K W West

Phys Rev Lett

Department of Electrical Engineering, Princeton University, Princeton, New Jersey 08544, USA.

Published: October 2000

We have measured magnetotransport at half-filled high Landau levels in a quantum well with two occupied electric subbands. We find resistivities that are isotropic in perpendicular magnetic field but become strongly anisotropic at nu = 9/2 and 11/2 on tilting the field. The anisotropy appears at an in-plane field, B(ip) approximately 2.5 T, with the easy-current direction parallel to B(ip) but rotates by 90 degrees at B(ip) approximately 10 T and points now in the same direction as in single-subband samples. This complex behavior is in quantitative agreement with theoretical calculations based on a unidirectional charge density wave state model.

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