基于机器学习的连续时间量子行走哈密顿算子的多参数估计

IF 4.2 Q2 QUANTUM SCIENCE & TECHNOLOGY
I. Gianani, C. Benedetti
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引用次数: 2

摘要

在执行从量子通信到计算的各种任务时,定义量子行走的哈密顿参数的表征是至关重要的。在处理量子行走的物理实现时,参数本身可能无法直接访问,因此,有必要找到利用其他可观察对象的替代估计策略。在这里,我们使用具有实验概率的深度神经网络模型在给定进化时间对具有n个邻居相互作用的线图上的连续时间量子行走的哈密顿参数进行多参数估计。我们将我们的结果与估计理论得到的界进行了比较,发现当进行两个或三个参数的估计时,神经网络都是一个接近最优的估计器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiparameter estimation of continuous-time quantum walk Hamiltonians through machine learning
The characterization of the Hamiltonian parameters defining a quantum walk is of paramount importance when performing a variety of tasks, from quantum communication to computation. When dealing with physical implementations of quantum walks, the parameters themselves may not be directly accessible, and, thus, it is necessary to find alternative estimation strategies exploiting other observables. Here, we perform the multiparameter estimation of the Hamiltonian parameters characterizing a continuous-time quantum walk over a line graph with n-neighbor interactions using a deep neural network model fed with experimental probabilities at a given evolution time. We compare our results with the bounds derived from estimation theory and find that the neural network acts as a nearly optimal estimator both when the estimation of two or three parameters is performed.
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CiteScore
9.90
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