Order-by-disorder and emergent Kosterlitz-Thouless phase in triangular Rydberg array

Abstract

Programmable quantum simulator using Rydberg-atom array provides a promising route to demystifying quantum many-body physics in strongly correlated systems. Motivated by recent realization of various quantum magnetic phases on frustrated Rydberg-atom array, we perform numerically exact quantum Monte-Carlo simulation to investigate the exotic states of matter emerging in the model describing Rydberg atom on triangular lattice. Our state-of-the-art simulation unveils the 3×3 triangular anti-ferromagnetic(TAF) order exists at 13/23-Rydbreg filling, consistent with the observation in experiments. More fantastically, 3×3 long-range order arising from order-by-disorder mechanism emerges at 12-filling. At finite temperature, U(1) symmetry is emergent at 12-filling and a Kosterlitz-Thouless(KT) phase transition occurs with increasing temperature. These intriguing phenomena are potentially detected in future Rydberg-atom experiments.