Tight and attainable quantum speed limit for open systems

Zi-yi Mai, Chang-shui Yu
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引用次数: 1

Abstract

We develop an intuitive geometric picture of quantum states, define a particular state distance, and derive a quantum speed limit (QSL) for open systems. Our QSL is attainable because any initial state can be driven to a final state by the particular dynamics along the geodesic. We present the general condition for dynamics along the geodesic for our QSL. As evidence, we consider the generalized amplitude damping dynamics and the dephasing dynamics to demonstrate the attainability. In addition, we also compare our QSL with others by strict analytic processes as well as numerical illustrations, and show our QSL is tight in many cases. It indicates that our paper is significant in tightening the bound of evolution time.
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开放系统的严格和可实现的量子速度限制
我们开发了量子态的直观几何图像,定义了一个特定的状态距离,并推导了开放系统的量子速度极限(QSL)。我们的QSL是可以实现的,因为任何初始状态都可以通过沿测地线的特定动力学驱动到最终状态。我们给出了QSL沿测地线动力学的一般条件。作为证据,我们考虑了广义振幅阻尼动力学和减相动力学来证明其可得性。此外,我们还通过严格的分析过程和数值说明将我们的QSL与其他QSL进行了比较,并表明我们的QSL在很多情况下是紧密的。这表明本文在收紧进化时间界限方面具有重要意义。
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