A Comparative Study of Cyclotron Decay in Two-dimensional Electron Gas Samples.

ORAL

Abstract

We used THz time-domain spectroscopy to study cyclotron decay times in high mobility GaAs 2DEGs of varying well widths (30nm and 12 nm). All the measurements were done at a magnetic field of 0.8T as a function of temperature (0.4-10 K). We compare the characteristic cyclotron decay times in both types of samples, as a function of temperature, to examine the influence of surface scattering and strong quantum confinement. Our previous work has shown that the cyclotron decay time exceeds the single particle/quantum lifetime by \textasciitilde 60x in the 30nm 2 DEG QW[1], which we attribute to the influence of small angle scattering in the high-mobility limit $\mu $\textunderscore DC$=$3.6$\times$ 10\textasciicircum 6 cm\textasciicircum 2 V\textasciicircum (-1) s\textasciicircum (-1). [1]Jeremy A. Curtis et al., Physical Review B 93 (15), 155437 (2016).

*This work is supported by the NSF under Grant No. DMR-1056827. JAC also acknowledges support from the U.S. Dept. Education GAANN Fellowship (P200A090143). Instrument development was funded, in part, by the US Department of Energy (DE-SC0012635)

Authors

  • B. Barman

    • University of Alabama at Birmingham

  • A.L. OBeirne

    • University of Alabama at Birmingham

  • A.G. Linn

    • University of Alabama at Birmingham

  • J.A. Curtis

    • National High Magnetic Field Lab
    • University of Alabama at Birmingham

  • J. Holleman

    • Florida State University

  • C. Garcia

    • Florida State University

  • T. Tokumoto

    • University of Alabama at Birmingham

  • J.L. Reno

    • Sandia National Labs
    • Sandia National Laboratory

  • Steve McGill

    • National High Magnetic Field Lab
    • National High Magnetic Field Laboratory
    • Natl High Magnetic Field Lab, Tallahassee, FL, USA

  • D. Karaiskaj

    • Univ of South Florida
    • University of South Florida

  • D.J. Hilton

    • University of Alabama at Birmingham