G. Salis, D. T. Fuchs, J. M. Kikkawa, D. D. Awschalom, Y. Ohno, H. Ohno
Published 2000-10-10Version 1
Conduction electrons are used to optically polarize, detect and manipulate nuclear spin in a (110) GaAs quantum well. Using optical Larmor magnetometry, we find that nuclear spin can be polarized along or against the applied magnetic field, depending on field polarity and tilting of the sample with respect to the optical pump beam. Periodic optical excitation of the quantum-confined electron spin reveals a complete spectrum of optically-induced and quadrupolar-split nuclear resonances, as well as evidence for delta m = 2 transitions.
Comments: 13 pages, 4 figures. Submitted for publication
Journal: Physical Review Letters 86, 2677 (2001)
Nematic phase of the two-dimensional electron gas in a magnetic field
Universal Linear Density of States for Tunneling into the Two-Dimensional Electron Gas in a Magnetic field
Resonant Spin Polarization and Hall Effects in a Two-Dimensional Electron Gas
