Vibronic spectra of molecules – an experiment with a quantum computer simulator

IF 0.3 Q4 MATHEMATICS
A. Németh, T. Kozsik, Z. Zimborás
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引用次数: 0

Abstract

. In addition to the exciting fundamental questions of quantum computing and implementation possibilities of quantum computers, it is important to look for application areas of quantum computing, to point out practical cases which justify the need for this technology. Besides the well-known qubit-based quantum computers, there are also devices based on other foundations that can surpass the capabilities of classical computers. Among these, devices operating on the basis of boson sampling have a naturally occurring application: the approximate calculation of the vibrational spectrum of molecules. Two separate research groups, Huh et al. [14] and Wang et al. [22] created quantum simulators based on boson sampling, which were successfully used to calculate the transition probabilities between specific states of small molecules. Following the methodology found in these two articles, this paper presents how the calculations of transition probabilities can be performed on a classical computer using a quantum computer simulator which is based on Gaussian boson sampling.
分子的振动光谱——用量子计算机模拟器进行的实验
. 除了量子计算和量子计算机实现可能性的令人兴奋的基本问题之外,寻找量子计算的应用领域,指出证明需要这种技术的实际案例也很重要。除了众所周知的基于量子位的量子计算机,还有一些基于其他基础的设备可以超越经典计算机的能力。其中,基于玻色子采样的设备有一个自然发生的应用:分子振动谱的近似计算。Huh等人[14]和Wang等人[22]两个独立的研究小组创建了基于玻色子采样的量子模拟器,并成功地用于计算小分子特定状态之间的跃迁概率。根据这两篇文章的方法,本文介绍了如何使用基于高斯玻色子采样的量子计算机模拟器在经典计算机上执行跃迁概率的计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
0.90
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