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arxiv: 2303.11343 · v1 · pith:DQPHN5TJnew · submitted 2023-03-20 · 🪐 quant-ph · cond-mat.quant-gas· cond-mat.str-el· hep-th

A cavity quantum electrodynamics implementation of the Sachdev--Ye--Kitaev model

classification 🪐 quant-ph cond-mat.quant-gascond-mat.str-elhep-th
keywords quantummodelcavityelectrodynamicsgravityimplementationlaboratoryscalable
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The search for a quantum theory of gravity has led to the discovery of quantum many-body systems that are dual to gravitational models with quantum properties. The perhaps most famous of these systems is the Sachdev-Ye-Kitaev (SYK) model. It features maximal scrambling of quantum information, and opens a potential inroad to experimentally investigating aspects of quantum gravity. A scalable laboratory realisation of this model, however, remains outstanding. Here, we propose a feasible implementation of the SYK model in cavity quantum electrodynamics platforms. Through detailed analytical and numerical demonstrations, we show how driving a cloud of fermionic atoms trapped in a multi-mode optical cavity, and subjecting it to a spatially disordered AC-Stark shift retrieves the physics of the SYK model, with random all-to-all interactions and fast scrambling. Our work provides a blueprint for realising the SYK model in a scalable system, with the prospect of studying holographic quantum matter in the laboratory.

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  1. Density Wave Ordering with Disordered Ultracold Fermions in Optical Cavities

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    Disorder renormalizes the light-matter coupling in a cavity-fermion system, lowering the average superradiant threshold and distorting the density-wave order above threshold.