Evidence for an Intermediate Phase below the Critical Density for the MI transition in silicon MOSFETs

Shiqi Li; Qing Zhang; Myriam Sarachik

Evidence for an Intermediate Phase below the Critical Density for the MI transition in silicon MOSFETs

ORAL

Abstract

The magnetoconductivity of the strongly interacting 2D electron system in low disorder silicon MOSFETs is found to scale with B/T throughout the insulating phase, confirming earlier measurements for densities near the metal-insulator transition n_c[1, 2]. We report further that the magnetoconductivity can be collapsed onto a single curve deep in the insulator for all densities up to approximately n* ~ 0.8 n_c. The shape of the scaled curves varies between n* and n_c, where n_c signals the entry into the metallic state. This suggests the presence of an intermediate phase between the deep insulator and the metal.

[1] S. A. Vitkalov, H. Zheng, K. M. Mertes, and M. P. Sarachik, Phys. Rev. Lett. 87, 086401 (2001).
[2] Yeekin Tsui, S. A. Vitkalov, M. P. Sarachik and T. M. Klapwijk, Phys. Rev. B 71, 033312 (2005).

^*This work was supported by the National Science Foundation grant DMR-1309008 and the Binational Science Foundation Grant 2012210.

March 8, 2018, 12:03 PM – March 8, 2018, 12:15 PM

Presenters

Shiqi Li
- Physics, City College of New York
- City College of New York of CUNY

Authors

Shiqi Li
- Physics, City College of New York
- City College of New York of CUNY
Qing Zhang
- Physics, City College of New York
- City College of New York of CUNY
Myriam Sarachik
- Physics, City College of New York
- City College of New York of CUNY