Computational Studies of T=0 Neel-Valence bond solid transitions in two dimensional quantum antiferromagnets

Kedar Damle; Fabien Alet; Sumiran Pujari; Argha Banerjee; Arun Paramekanti

Computational Studies of $T=0$ Neel-Valence bond solid transitions in two dimensional quantum antiferromagnets

ORAL

Abstract

We use Quantum Monte Carlo techniques to study a direct quantum phase transition in two dimensional quantum antiferromagnets between a collinear Neel ordered state and a valence bond solid ordered singlet state. We contrast the strongly first order behavior of the transition in cases where the valence bond solid order is of a ``staggered'' type with the deconfined critical behavior seen in cases where the valence-bond solid order is of a columnar type. In the deconfined case, we find evidence for weak, apparently logarithmic violations of scaling. [References: preprint; Phys. Rev. B 83, 235111 (2011); Phys. Rev. B 83, 134419 (2011); Phys. Rev. B 82, 155139 (2010)]

Feb. 29, 2012, 2:42 PM – Feb. 29, 2012, 2:54 PM

Authors

Kedar Damle
- Tata Institute
Fabien Alet
- CNRS, Universit\'e de Toulouse, F-31062 France
- Univ. Paul Sabatier, Toulouse
Sumiran Pujari
- Univ. Paul Sabatier, Toulouse
Argha Banerjee
- Institute for Mathematical Sciences, India
Arun Paramekanti
- University of Toronto