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A 2D Quantum Walk Simulation of Two-Particle Dynamics

机译:两粒子动力学的二维量子步行模拟

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摘要

Multidimensional quantum walks can exhibit highly nontrivial topological structure, providing a powerful tool for simulating quantum information and transport systems. We present a flexible implementation of a two-dimensional (2D) optical quantum walk on a lattice, demonstrating a scalable quantum walk on a nontrivial graph structure. We realized a coherent quantum walk over 12 steps and 169 positions by using an optical fiber n?twork. With our broad spectrum of quantum coins, we were able to simulate the creation of entanglement in bipartite systems with conditioned interactions. Introducing dynamic control allowed for the investigation of effects such as strong nonlinearities or two-particle scattering. Our results illustrate the potential of quantum walks as a route for simulating and understanding complex quantum systems.
机译:多维量子步态可以表现出非常重要的拓扑结构,为模拟量子信息和传输系统提供了强大的工具。我们提出了在晶格上的二维(2D)光学量子步态的灵活实现,展示了在非平凡图结构上的可伸缩量子步态。通过使用光纤网络,我们实现了跨越12个步骤和169个位置的相干量子行进。凭借我们广泛的量子硬币,我们能够模拟具有条件相互作用的二分系统中纠缠的产生。引入动态控制可以研究诸如强非线性或两粒子散射等效应。我们的结果说明了量子游走作为模拟和理解复杂量子系统的途径的潜力。

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  • 来源
    《Science》 |2012年第6077期|p.55-58|共4页
  • 作者

    Andreas Schreiber; Aurel Gabris; Peter P. Rohde; Kaisa Laiho; Martin Stefanak; Vaclav Potocek; Craig Hamilton; Igor Jex; Christine Silberhorn;

  • 作者单位

    Applied Physics, University of Paderborn, Warburger Strasse 100,33098 Paderborn, Germany,Max Planck Institute for the Science of Light, Guenther-Scharowsky-Strasse 1/Bau 24,91058 Erlangen, Germany;

    Department of Physics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehova' 7,115 19 Praha, Czech Republic,Wigner Research Centre for Physics, Hungarian Academy of Sciences,H-1525 Budapest, Post Office Box 49, Hungary;

    Applied Physics, University of Paderborn, Warburger Strasse 100,33098 Paderborn, Germany,Centre for Engineered Quantum Systems, Department of Physics and Astronomy, Macquarie University, Sydney NSW 2113, Australia;

    Applied Physics, University of Paderborn, Warburger Strasse 100,33098 Paderborn, Germany,Max Planck Institute for the Science of Light, Guenther-Scharowsky-Strasse 1/Bau 24,91058 Erlangen, Germany;

    Department of Physics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehova' 7,115 19 Praha, Czech Republic;

    Department of Physics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehova' 7,115 19 Praha, Czech Republic;

    Department of Physics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehova' 7,115 19 Praha, Czech Republic;

    Department of Physics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehova' 7,115 19 Praha, Czech Republic;

    Applied Physics, University of Paderborn, Warburger Strasse 100,33098 Paderborn, Germany,Max Planck Institute for the Science of Light, Guenther-Scharowsky-Strasse 1/Bau 24,91058 Erlangen, Germany;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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  • 入库时间 2022-08-18 02:53:21

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