Primary and Secondary Order Parameters in the Fully Frustrated Transverse Field Ising Model on the Square Lattice

Abstract

Using quantum Monte Carlo simulations and field-theory arguments, we study the fully frustrated (Villain) transverse-field Ising model on the square lattice. We consider a "primary" spin order parameter and a "secondary" dimer order parameter, which both lead to the same phase diagram but detect Z8 and Z4 symmetry, respectively. The spin order scales with conventional exponents, both in the finite temperature critical phase and at the T = 0 quantum critical point. The scaling of the dimer order requires more detailed investigations of the applicable low-energy theories; the height model at T > 0 and the O(2) model in 2+1 dimensions at T = 0. Relating the order parameters to operators in these effective models, we predict the secondary critical exponents and confirm them numerically. The relationships between the primary and secondary order parameters have not been previously discussed in this context and provide insight more broadly for Ising models whose low-energy physics involves dimer degrees of freedom.