Long-range Wormhole Teleportation

Joseph D. Lykken,Daniel Jafferis,Alexander Zlokapa,David K. Kolchmeyer,Samantha I. Davis,Hartmut Neven,Maria Spiropulu

arXiv (Cornell University)（2024）

Fermi National Accelerator Laboratory Quantum Division | Harvard University Center for the Fundamental Laws of Nature | Massachusetts Institute of Technology Center for Theoretical Physics | California Institute of Technology Alliance for Quantum Technologies (AQT) | Google Quantum AI

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Abstract

We extend the protocol of Gao and Jafferis arXiv:1911.07416 to allow wormholeteleportation between two entangled copies of the Sachdev-Ye-Kitaev (SYK) modelcommunicating only through a classical channel. We demonstrate in finite Nsimulations that the protocol exhibits the characteristic holographic featuresof wormhole teleportation discussed and summarized in Jafferis et al.https://www.nature.com/articles/s41586-022-05424-3 . We review and exhibit indetail how these holographic features relate to size winding which, as firstshown by Brown et al. arXiv:1911.06314 and Nezami et al. arXiv:2102.01064,encodes a dual description of wormhole teleportation.

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【要点】：本文扩展了Gao和Jafferis的协议，实现了通过经典通道在两个纠缠的Sachdev-Ye-Kitaev（SYK）模型之间进行虫洞传送，并展示了其具有典型的全息特性。

【方法】：研究通过详细回顾和展示 holographic features 与 size winding的关系，后者首次由Brown等人提出，用以编码虫洞传送的对偶描述。

【实验】：在有限N的模拟中验证了该协议，实验使用了SYK模型，并展现出与Jafferis等人在Nature文章中讨论的全息虫洞传送特征相符的结果。

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