Berezovsky J, Mikkelsen M H, Gywat O, Stoltz N G, Coldren L A, Awschalom D D
Center for Spintronics and Quantum Computation, University of California, Santa Barbara, CA 93106, USA.
Science. 2006 Dec 22;314(5807):1916-20. doi: 10.1126/science.1133862. Epub 2006 Nov 9.
Kerr rotation measurements on a single electron spin confined in a charge-tunable semiconductor quantum dot demonstrate a means to directly probe the spin off-resonance, thus minimally disturbing the system. Energy-resolved magneto-optical spectra reveal information about the optically oriented spin polarization and the transverse spin lifetime of the electron as a function of the charging of the dot. These results represent progress toward the manipulation and coupling of single spins and photons for quantum information processing.
对限制在电荷可调半导体量子点中的单个电子自旋进行的克尔旋转测量,展示了一种直接探测自旋非共振的方法,从而对系统的干扰最小。能量分辨磁光光谱揭示了作为量子点充电函数的光学取向自旋极化和电子横向自旋寿命的信息。这些结果代表了在用于量子信息处理的单自旋和光子的操纵与耦合方面取得的进展。