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W2948821488 abstract "The discovery of fracton states of matter opens up an exciting, largely unexplored field of many-body physics. Certain fracton states' similarity to gravity is an intriguing property. In an earlier work [H. Yan, Phys. Rev. B 99, 155126 (2019)], we have demonstrated that a simple fracton model in anti-de Sitter space satisfies several major holographic properties. In this follow-up paper, we study the eight-vertex model dual to the original model. The dual model has the advantage of illuminating the mutual information and subsystem charges pictorially, which helps to reveal its connections to various other topics in the study of holography and fracton phases. At zero temperature, the dual eight-vertex model is a discrete realization of the bit-thread model, a powerful tool developed to visualize holography. The bit-thread picture combined with subsystem charges can give a quantitative account of the isometry between the bulk and the boundary at finite energy, which is also a key issue for holography. The black hole microscopic degrees of freedom can be identified in this picture, which turn out to be encoded non-locally on the horizon. The eight-vertex model proves to be a very helpful venue to improve our understanding of the hyperbolic fracton model as a toy model of holography." @default.
W2948821488 created "2019-06-14" @default.
W2948821488 creator A5000620753 @default.
W2948821488 date "2019-12-23" @default.
W2948821488 modified "2023-10-14" @default.
W2948821488 title "Hyperbolic fracton model, subsystem symmetry, and holography. II. The dual eight-vertex model" @default.
W2948821488 cites W1692860925 @default.
W2948821488 cites W1740640945 @default.
W2948821488 cites W1889142700 @default.
W2948821488 cites W1942406303 @default.
W2948821488 cites W1981331604 @default.
W2948821488 cites W1983557117 @default.
W2948821488 cites W1992223563 @default.
W2948821488 cites W1992709943 @default.
W2948821488 cites W1999488180 @default.
W2948821488 cites W2050698597 @default.
W2948821488 cites W2090386790 @default.
W2948821488 cites W2090466200 @default.
W2948821488 cites W2092621693 @default.
W2948821488 cites W2097361916 @default.
W2948821488 cites W2098838878 @default.
W2948821488 cites W2107240173 @default.
W2948821488 cites W2110283120 @default.
W2948821488 cites W2121583605 @default.
W2948821488 cites W2124590498 @default.
W2948821488 cites W2125942173 @default.
W2948821488 cites W2141586044 @default.
W2948821488 cites W2144575852 @default.
W2948821488 cites W2156366140 @default.
W2948821488 cites W2261736664 @default.
W2948821488 cites W2298547144 @default.
W2948821488 cites W2337929825 @default.
W2948821488 cites W2347106112 @default.
W2948821488 cites W2396132144 @default.
W2948821488 cites W2407534537 @default.
W2948821488 cites W2461023059 @default.
W2948821488 cites W2485945841 @default.
W2948821488 cites W2567789734 @default.
W2948821488 cites W2592175110 @default.
W2948821488 cites W2599203539 @default.
W2948821488 cites W2617970526 @default.
W2948821488 cites W2618760674 @default.
W2948821488 cites W2734706981 @default.
W2948821488 cites W2747292959 @default.
W2948821488 cites W2761379279 @default.
W2948821488 cites W2764174999 @default.
W2948821488 cites W2766245607 @default.
W2948821488 cites W2774470299 @default.
W2948821488 cites W2775751147 @default.
W2948821488 cites W2781070109 @default.
W2948821488 cites W2787918477 @default.
W2948821488 cites W2788306841 @default.
W2948821488 cites W2792098866 @default.
W2948821488 cites W2794132465 @default.
W2948821488 cites W2795790896 @default.
W2948821488 cites W2796016079 @default.
W2948821488 cites W2886574171 @default.
W2948821488 cites W2886634972 @default.
W2948821488 cites W2913419161 @default.
W2948821488 cites W2916836665 @default.
W2948821488 cites W2924199494 @default.
W2948821488 cites W2924428627 @default.
W2948821488 cites W2937394116 @default.
W2948821488 cites W2950401163 @default.
W2948821488 cites W2951252175 @default.
W2948821488 cites W3000019265 @default.
W2948821488 cites W3017147307 @default.
W2948821488 cites W3098442323 @default.
W2948821488 cites W3098753369 @default.
W2948821488 cites W3099270037 @default.
W2948821488 cites W3099593466 @default.
W2948821488 cites W3099813200 @default.
W2948821488 cites W3100196339 @default.
W2948821488 cites W3100613786 @default.
W2948821488 cites W3100798747 @default.
W2948821488 cites W3101793736 @default.
W2948821488 cites W3102352811 @default.
W2948821488 cites W3102597747 @default.
W2948821488 cites W3102700956 @default.
W2948821488 cites W3103644943 @default.
W2948821488 cites W3103690389 @default.
W2948821488 cites W3103815360 @default.
W2948821488 cites W3104057828 @default.
W2948821488 cites W3104203316 @default.
W2948821488 cites W4210950222 @default.
W2948821488 cites W4214950501 @default.
W2948821488 doi "https://doi.org/10.1103/physrevb.100.245138" @default.
W2948821488 hasPublicationYear "2019" @default.
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