Laurens Vanderstraeten, Bram Vanhecke, Andreas M. Laeuchli, Frank Verstraete
Published 2019-07-10Version 1
We apply variational tensor-network methods for simulating the Kosterlitz-Thouless phase transition in the classical two-dimensional XY model. In particular, using uniform matrix product states (MPS) with non-abelian O(2) symmetry, we compute the universal drop in the spin stiffness at the critical point. In the critical low-temperature regime, we focus on the MPS entanglement spectrum to characterize the Luttinger-liquid phase. In the high-temperature phase, we confirm the exponential divergence of the correlation length and estimate the critical temperature with high precision. Our MPS approach can be used to study generic two-dimensional phase transitions with continuous symmetries.
The fine structure of the entanglement entropy in the classical XY model
Classical XY Model in 1.99 Dimensions
Magnetic fluctuations in the classical XY model: the origin of an exponential tail in a complex system
![QR code for arXiv:1907.04576 [cond-mat.stat-mech]](http://oss.arxitics.com/images/favicon.svg)