通过非线性量子轨迹平均值区分不同的解旋过程

Eloy Piñol, Th. K. Mavrogordatos, Dustin Keys, Romain Veyron, Piotr Sierant, Miguel Angel García-March, Samuele Grandi, Morgan W. Mitchell, Jan Wehr, Maciej Lewenstein
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引用次数: 0

摘要

戈里尼-科萨科夫斯基-苏达山-林德布拉德主方程(ME)控制着开放量子系统(OQS)的密度矩阵。当开放量子系统受到弱连续测量时,其状态会演变为随机量子轨迹,其统计平均值求解了主方程。这种轨迹的集合被称为 ME 的解蔽。我们提出了一种方法,利用轨迹上观测值的非线性平均值,从操作上区分不同测量情景下由相同 ME 产生的解译。我们将该方法应用于两级原子共振荧光的典型量子非线性系统。我们比较了由直接探测从两级发射器散射的光子而诱发的泊松型解开和由相敏探测发射场而诱发的维纳型解开。我们证明,量子轨迹平均方差能够区分这些测量情况。我们评估了该方法在一系列现实实验条件下的性能,该方法可随时扩展到更复杂的 OQS。
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Telling different unravelings apart via nonlinear quantum-trajectory averages
The Gorini-Kossakowski-Sudarshan-Lindblad master equation (ME) governs the density matrix of open quantum systems (OQSs). When an OQS is subjected to weak continuous measurement, its state evolves as a stochastic quantum trajectory, whose statistical average solves the ME. The ensemble of such trajectories is termed an unraveling of the ME. We propose a method to operationally distinguish unravelings produced by the same ME in different measurement scenarios, using nonlinear averages of observables over trajectories. We apply the method to the paradigmatic quantum nonlinear system of resonance fluorescence in a two-level atom. We compare the Poisson-type unraveling, induced by direct detection of photons scattered from the two-level emitter, and the Wiener-type unraveling, induced by phase-sensitive detection of the emitted field. We show that a quantum-trajectory-averaged variance is able to distinguish these measurement scenarios. We evaluate the performance of the method, which can be readily extended to more complex OQSs, under a range of realistic experimental conditions.
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