Exploring Optical Nuclear Polarization in Ga<sub>1-x</sub>Mn<sub>x</sub>As Films

ORAL

Abstract

Gallium-71 optically-pumped NMR (OPNMR) measurements were performed on thin films (<1 µm thickness) of the dilute magnetic semiconductor Ga1-xMnxAs (where x= 0, 0.01 and 0.05), a candidate material for spintronics applications. The optical irradiation time dependence of the OPNMR signal and dark nuclear spin relaxation were measured to investigate the effects of Mn on the spin polarization dynamics of optical nuclear polarization. The action spectra (OPNMR signal vs. photon energy) acquired in bulk GaAs and a Ga.99Mn.01As film are compared to theoretical simulations based on the electronic band structure calculations. Incorporation of Mn produces strong oscillations in the OPNMR signal amplitude, which are in qualitative agreement with theory. In addition, the Mn sites were characterized by X-band EPR spectroscopy at 5 K. The results are interpreted in terms of a modified optical pumping model and spectral simulations.

*Supported by the NSF through the User Collaborative Grants Program (UCGP), National High Magnetic Field Laboratory Renewal 2013-2017 (Grant No. DMR- 1157490), and Air Force Office of Scientific Research, Award Number FA9550-17-1-0341. We thank Xinyu Liu and Jacek Furdyna, University of Notre Dame, for pr

Presenters

  • John Tokarski

    • Univ of Florida - Gainesville

Authors

  • John Tokarski

    • Univ of Florida - Gainesville

  • Brenden Magill

    • Physics, Virginia Institute of Technology
    • Virginia Tech

  • Christopher Stanton

    • Univ of Florida - Gainesville
    • Physics, Univ of Florida - Gainesville
    • University of Florida

  • Giti Khodaparast

    • Physics, Virginia Institute of Technology
    • Virginia Tech

  • Clifford Bowers

    • University of Florida - Gainesville
    • Univ of Florida - Gainesville
    • Physics, Univ of Florida - Gainesville