Simulating Open Quantum Systems Using Hamiltonian Simulations

Zhiyan Ding, Xiantao Li, Lin Lin
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Abstract

We present a novel method to simulate the Lindblad equation, drawing on the relationship between Lindblad dynamics, stochastic differential equations, and Hamiltonian simulations. We derive a sequence of unitary dynamics in an enlarged Hilbert space that can approximate the Lindblad dynamics up to an arbitrarily high order. This unitary representation can then be simulated using a quantum circuit that involves only Hamiltonian simulation and tracing out the ancilla qubits. There is no need for additional postselection in measurement outcomes, ensuring a success probability of one at each stage. Our method can be directly generalized to the time-dependent setting. We provide numerical examples that simulate both time-independent and time-dependent Lindbladian dynamics with accuracy up to the third order.

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利用哈密顿模拟仿真开放量子系统
我们利用林德布拉德动力学、随机微分方程和汉密尔顿模拟之间的关系,提出了一种模拟林德布拉德方程的新方法。我们在一个扩大的希尔伯特空间中推导出了一个单元动力学序列,它可以逼近林德布拉德动力学到任意高阶。然后,就可以使用量子电路来模拟这种单元表示法,这种电路只涉及哈密尔顿模拟和溯源量子比特。测量结果不需要额外的后选择,确保每个阶段的成功概率都是 1。我们的方法可以直接推广到随时间变化的环境中。我们提供了数值示例,模拟了与时间无关和与时间有关的林德布拉迪恩动力学,精度高达三阶。
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