Irvin, Fodor, Levy , Opt. Express 15 , 11756 (2007)

1. Resolving Electron Spin Dynamics Using Continuous LightJeremy Levy, University of Pittsburgh, DMR-0602846 We have developed a method for measuring electron spin dynamics with sub-nanosecond time resolution, transform-limited spectral selectivity, and phase-sensitive (lock-in) detection. Use of a continuous-wave (CW) laser and fast optical bridge enables greatly improved signal-to-noise characteristics compared to traditional optical sampling (pump-probe) techniques. Simulations have shown that an improvement of up to 104 in signal-to-noise ratio is possible. We demonstrate the technique with a measurement of GHz-spin precession in n-GaAs. This approach may also be applicable to other physical systems where stroboscopic techniques cannot be used because of either noise or spectral limitations. (c) Acquired Kerr rotation (KR) data for n-GaAs as a function of the delay time and external magnetic field. Irvin, Fodor, Levy, Opt. Express 15, 11756 (2007)

2. Broader Impact: Undergraduate Research George Kaiser (REU student) • Developed hardware and software for XY slip-stick stage in low-temperature microscope • Calibrated motion (nm/step) as a function of drive amplitude • Characterized capacitance vs. voltage of InAs quantum dots supplied by Gilberto Medeiros-Ribeiro (MWN collaborator) Jeremy Levy, University of Pittsburgh, DMR-0602846, REU-0649184 (c) Top: Image of XY slip-stick stage for use in a low-temperature optical microscope. Bottom: Graph showing microns/step for motion of XY stage as a function of drive voltage amplitude. Motion begins a very low drive amplitudes (<5% of full scale)