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引用次数: 0
摘要
我们扩展了(Slavcheva, 2007)与带电半导体量子点(QDs)的共振相干圆极化光脉冲相互作用的新动力学模型(Slavcheva et al., 2006),通过自旋弛豫动力学将系统中的耗散包括在内。推导了一个广义伪自旋主方程,用实态伪自旋(相干)矢量描述自旋相干和自旋居群的光诱导时间演化。该方程与经宏观介质极化耦合的光波传播的矢量麦克斯韦方程组自一致求解。利用该模型,我们证明了利用高强度拉比振荡的单自旋偏振态的数值相干读出。我们表明,相干自旋偏振控制可以通过改变脉冲区域的激发强度来实现,这允许在偏振光致发光的时间迹之间进行区分,从而实现高保真的单自旋检测方案。最长寿命的自旋相干是在奇倍激发下实现的。
Dynamical Model for Coherent Optical Control of a Single Confined Spin
We extend (Slavcheva, 2007) our new dynamical model (Slavcheva et al., 2006) for resonant coherent circularly polarized optical pulse interactions with charged semiconductor quantum dots (QDs) to include dissipation in the system through the spin relaxation dynamics. A generalized pseudospin master equation is derived for description of the optically-induced time evolution of spin coherences and spin populations in terms of the real state pseudospin (coherence) vector. The equation is solved self-consistently with the vector Maxwell equations for the optical wave propagation coupled via macroscopic medium polarization. Using the model we demonstrate numerically coherent readout of a single spin polarization state exploiting the high-intensity Rabi oscillations regime. We show that coherent spin-polarization control can be achieved by varying the excitation intensity through the pulse area which allows for differentiation between the time traces of the polarized photoluminescence, thus enabling high-fidelity schemes for single spin detection. Longest-lived spin coherence is achieved for odd multiples of pi-excitations.
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