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Paper detail

Computing complexity measures for quantum states based on exponential families

Given a multiparticle quantum state, one may ask whether it can be represented as a thermal state of some Hamiltonian with k-particle interactions only. The distance from the exponential family defined by these thermal states can be considered as a measure of complexity of a given state. We investigate the resulting optimization problem and show how symmetries can be exploited to simplify the task of finding the nearest thermal state in a given exponential family. We also present an algorithm for the computation of the complexity measure and consider specific examples to demonstrate its applicability.

preprint2012arXivOpen access
Sönke NiekampTobias GallaMatthias KleinmannOtfried Gühne
cond-mat.stat-mechquant-ph
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Sönke NiekampTobias GallaMatthias KleinmannOtfried Gühne

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