Symmetrized holographic entropy cone
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Date
2022-04-15
Publication Type
Journal Article
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yes
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Abstract
The holographic entropy cone (HEC) characterizes the entanglement structure of quantum states which admit geometric bulk duals in holography. Due to its intrinsic complexity, to date it has only been possible to completely characterize the HEC for at most n=5 parties. For larger n, our knowledge of the HEC falls short of incomplete: almost nothing is known about its extremal elements. Here, we introduce a symmetrization procedure that projects the HEC onto a natural lower dimensional subspace. Upon symmetrization, we are able to conjecture precise properties that its extremal structure exhibits for general n. Further, by applying this symmetrization to the quantum entropy cone, we are able to quantify the typicality of symmetrized holographic entropies, which we find to be exponentially rare quantum entropies in the number of parties.
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published
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Journal / series
Volume
105 (8)
Pages / Article No.
86008
Publisher
American Physical Society