Wednesday, February 6, 2013

1302.0899 (Tarun Grover et al.)

Entanglement Entropy as a Portal to the Physics of Quantum Spin Liquids    [PDF]

Tarun Grover, Yi Zhang, Ashvin Vishwanath
Quantum Spin Liquids (QSLs) are phases of interacting spins that do not order even at the absolute zero temperature, making it impossible to characterize them by a local order parameter. In this article, we review the unique view provided by the quantum entanglement on QSLs. We illustrate the crucial role of Topological Entanglement Entropy in diagnosing the non-local order in QSLs, using specific examples such as the Chiral Spin Liquid. We also demonstrate the detection of anyonic quasiparticles and their braiding statistics using quantum entanglement. In the context of gapless QSLs, we discuss the detection of emergent fermionic spinons in a bosonic wavefunction, by studying the size dependence of entanglement entropy.
View original: http://arxiv.org/abs/1302.0899

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