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Paper detail

Entanglement scaling in two-dimensional gapless systems

We numerically determine subleading scaling terms in the ground-state entanglement entropy of several two-dimensional (2D) gapless systems, including a Heisenberg model with Néel order, a free Dirac fermion in the π-flux phase, and the nearest-neighbor resonating-valence-bond wavefunction. For these models, we show that the entanglement entropy between cylindrical regions of length x and L - x, extending around a torus of length L, depends upon the dimensionless ratio x/L. This can be well-approximated on finite-size lattices by a function ln(sin(πx/L)), akin to the familiar chord-length dependence in one dimension. We provide evidence, however, that the precise form of this bulk-dependent contribution is a more general function in the 2D thermodynamic limit.

preprint2012arXivOpen access
Hyejin JuAnn B. KallinPaul FendleyMatthew B. HastingsRoger G. Melko
cond-mat.str-elquant-ph
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Hyejin JuAnn B. KallinPaul FendleyMatthew B. HastingsRoger G. Melko

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