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Entanglement Theory Quantum Correlations
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The von Neumann entropy asymptotics in multidimensional fermionic systems
arXiv
Authors: S. Farkas, Z. Zimboras
Year
2007
Paper ID
49986
Status
Preprint
Abstract Read
~2 min
Abstract Words
85
Citations
N/A
Abstract
We study the von Neumann entropy asymptotics of pure translation-invariant quasi-free states of d-dimensional fermionic systems. It is shown that the entropic area law is violated by all these states: apart from the trivial cases, the entropy of a cubic subsystem with edge length L cannot grow slower than L^{d-1}ln L. As for the upper bound of the entropy asymptotics, the zero-entropy-density property of these pure states is the only limit: it is proven that arbitrary fast sub-L^d entropy growth is achievable.
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- We study the von Neumann entropy asymptotics of pure translation-invariant quasi-free states of d-dimensional fermionic systems.
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