Detection of Spin Dependent Scattering at High Magnetic Fields

ORAL

Abstract

Neutral donor spin-dependent scattering of conduction electrons in silicon field-effect transistors can be used as a spin-state readout mechanism for donor qubits in silicon[1]. Experimentally, the effect is measured by electrically detected magnetic resonance, usually in a low magnetic field regime ($\approx0.35T$)[2]. In such measurements, the resonance signal amplitude is limited by the conduction electron spin polarization, which is typically less than 5\% at those fields. We report recent progress in the measurement of spin-dependent scattering at high magnetic fields ($3.5T-11T$), where the conduction electron polarization is much higher and results in much stronger resonance signals. \newline [1] Sarovar et al, PRB, 78, 245302 (2008), de Sousa et al, PRB,80, 045320 (2009) \newline [2] Lo et al, APL, 91, 242106 (2007)

*Supported by the National Security Agency and the U.S. Department of Energy under contract no. DE-AC02-05CH11231.

Authors

  • C.C. Lo

    • University of California, Berkeley

  • J. Bokor

    • University of California, Berkeley

  • V. Lang

    • University of Oxford

  • R.E. George

    • University of Oxford

  • J.J.L. Morton

    • University of Oxford

  • S. Zvyagin

    • Dresden High Magnetic Field Laboratory (HLD), FZ Dresden-Rossendorf, Dresden, Germany
    • Dresden High Magnetic Field Laboratory/FZD
    • Dresden High Magnetic Field Laboratory (HLD), FZ Dresden - Rossendorf

  • A.M. Tyryshkin

    • Department of Electrical Engineering, Princeton University
    • Princeton University

  • S.A. Lyon

    • Princeton University
    • Department of Electrical Engineering, Princeton University

  • Arun Persaud

    • Lawrence Berkeley National Laboratory

  • T. Schenkel

    • Lawrence Berkeley National Laboratory