应用任意相变的量子协议

arXiv - PHYS - Quantum Physics Pub Date : 2024-09-17 DOI:arxiv-2409.11020

Siavash Davani, Falk Eilenberger

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引用次数: 0

摘要

给定一个产生状态$|\phi\rangle=\sum\phi(x)\,|x\rangle$的算子、我们提出了一个量子协议，它可以将任何输入状态的形式$||psi/rangle=/sum/psi(x)\,|x/rangle$转换为$||psi'/rangle=/sum/psi(x)\,e^{i/alpha|/phi(x)|^2}\,|x/rangle$。因此，这个协议是可编程的，人们可以通过在每次运行时选择不同的 $|\phi\rangle$ 状态作为输入参数，来应用不同的相位文件 $e^{i\alpha|\phi(x)|^2}$。因此，通过量子计算机将相位应用于信号的问题被简化为初始化与所需相位轮廓相对应的状态 $|\phi\rangle$的问题。此外，我们还讨论了这一协议的可能应用，其中最重要的是在哈密尔顿模拟中的应用。

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A quantum protocol for applying arbitrary phase transformations

Given an operator that produces the state $|\phi\rangle=\sum\phi(x)\,|x\rangle$, we propose a quantum protocol that transforms any input state of the form $|\psi\rangle=\sum\psi(x)\,|x\rangle$ to $|\psi'\rangle=\sum\psi(x)\,e^{i\alpha|\phi(x)|^2}\,|x\rangle$. This protocol is thus programmable in the sense that one can use it to apply different phase profiles $e^{i\alpha|\phi(x)|^2}$ by choosing different $|\phi\rangle$ states as the input parameter at each run. Therefore, the problem of applying phases to a signal via a quantum computer is reduced to the problem of initializing a state $|\phi\rangle$ that corresponds to the desired phase profile. Furthermore, we discuss possible applications of this protocol, most importantly in Hamiltonian simulation.

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arXiv - PHYS - Quantum Physics

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