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基于混合自旋-光子量子比特可扩展架构的数字量子模拟器。

Digital quantum simulators in a scalable architecture of hybrid spin-photon qubits.

作者信息

Chiesa Alessandro, Santini Paolo, Gerace Dario, Raftery James, Houck Andrew A, Carretta Stefano

机构信息

Dipartimento di Fisica e Scienze della Terra, Università di Parma, I-43124 Parma, Italy.

Dipartimento di Fisica, Università di Pavia, via Bassi 6, I-27100 Pavia, Italy.

出版信息

Sci Rep. 2015 Nov 13;5:16036. doi: 10.1038/srep16036.

Abstract

Resolving quantum many-body problems represents one of the greatest challenges in physics and physical chemistry, due to the prohibitively large computational resources that would be required by using classical computers. A solution has been foreseen by directly simulating the time evolution through sequences of quantum gates applied to arrays of qubits, i.e. by implementing a digital quantum simulator. Superconducting circuits and resonators are emerging as an extremely promising platform for quantum computation architectures, but a digital quantum simulator proposal that is straightforwardly scalable, universal, and realizable with state-of-the-art technology is presently lacking. Here we propose a viable scheme to implement a universal quantum simulator with hybrid spin-photon qubits in an array of superconducting resonators, which is intrinsically scalable and allows for local control. As representative examples we consider the transverse-field Ising model, a spin-1 Hamiltonian, and the two-dimensional Hubbard model and we numerically simulate the scheme by including the main sources of decoherence.

摘要

由于使用经典计算机解决量子多体问题需要极其庞大的计算资源,因此这是物理学和物理化学领域面临的最大挑战之一。通过对应用于量子比特阵列的量子门序列直接模拟时间演化,即通过实现数字量子模拟器,有望找到解决方案。超导电路和谐振器正成为极具前景的量子计算架构平台,但目前仍缺乏一种可直接扩展、通用且能用现有技术实现的数字量子模拟器方案。在此,我们提出一种可行方案,利用超导谐振器阵列中的混合自旋 - 光子量子比特实现通用量子模拟器,该方案本质上具有可扩展性并允许进行局部控制。作为代表性示例,我们考虑横向场伊辛模型、自旋 - 1哈密顿量以及二维哈伯德模型,并通过纳入主要退相干源对该方案进行数值模拟。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9523/4643341/77c060295fab/srep16036-f1.jpg

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