步长相关离散时间量子行走在量子计算机上的实验实现

IF 1.1 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Luqman Khan, A. Zaman, Rashid Ahmad, S. Khan
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引用次数: 0

摘要

在量子计算机(QC)上实现了具有步长相关散射算子(SDS)的离散时间量子漫步(DTQW)。计算了不同状态的概率及其保真度。这是通过使用量子门模型(QGM)将硬币推广为旋转门来完成的。移位运算符中的CNOT门被替换为CNOT门Rx(π)的替代品。应用于量子器件(QD)和量子模拟器(QS)。在π/4角上,阶跃相关DTQW (SD-DTQW)的概率分布呈对称分布,而阶跃无关DTQW (SI-DTQW)则倾向于在一侧达到峰值。SD-DTQW概率的对称分布有助于更好地控制QS上的行走。在角为π/2的情况下,SI-DTQW以4个峰均匀分布在各个状态,而SD-DTQW以两个峰向一侧扩散。另外一些角度在QS上模拟了大约30步,揭示了SD-DTQW的一些有趣的特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimentally Implementing the Step-Dependent Discrete Time Quantum Walk on Quantum Computers
The Discrete-Time Quantum Walk (DTQW) with step-dependent scattering operator (SDS) is implemented on Quantum Computer (QC). The probabilities of different states, with their respective fidelities are calculated. This is done by generalizing the coin with a rotation gate using the Quantum Gate Model (QGM). The CNOT gates in the shift operator are replaced with the alternative to CNOT gates Rx(π). They are applied on a Quantum Device (QD) and a Quantum Simulator (QS). The fidelities vary around $50\%$ and the probability distribution of step-dependent DTQW (SD-DTQW) for the angle π/4 spreads symmetrically, while the step-independent DTQW (SI-DTQW) tends to peak at the one side. The symmetric distribution of probability of SD-DTQW can help in better control of the walk on QS. In the case of angle π/2, the SI-DTQW spreads equally across the states with four peaks, while the SD-DTQW spreads with two peaks to one side. Some other angles are simulated on QS for about 30 steps revealing some interesting features of SD-DTQW.
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来源期刊
Canadian Journal of Physics
Canadian Journal of Physics 物理-物理:综合
CiteScore
2.30
自引率
8.30%
发文量
65
审稿时长
1.7 months
期刊介绍: The Canadian Journal of Physics publishes research articles, rapid communications, and review articles that report significant advances in research in physics, including atomic and molecular physics; condensed matter; elementary particles and fields; nuclear physics; gases, fluid dynamics, and plasmas; electromagnetism and optics; mathematical physics; interdisciplinary, classical, and applied physics; relativity and cosmology; physics education research; statistical mechanics and thermodynamics; quantum physics and quantum computing; gravitation and string theory; biophysics; aeronomy and space physics; and astrophysics.
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