Quantum order-by-disorder induced phase transition in Rydberg ladders with staggered detuning

TL;DR

This paper investigates how quantum order-by-disorder induces a phase transition in Rydberg atom ladders with staggered detuning, revealing an emergent Ising transition and providing experimental verification prospects.

Contribution

It demonstrates the occurrence of a quantum order-by-disorder induced phase transition in Rydberg ladders with realistic interactions, identifying the critical parameters and analyzing its robustness.

Findings

Existence of a plateau with fixed Rydberg excitation density 1/4

Emergence of an Ising transition within the plateau

Critical detuning estimated and confirmed by numerical and analytical methods

Abstract

$^{87}{\rm Rb}$ atoms are known to have long-lived Rydberg excited states with controllable excitation amplitude (detuning) and strong repulsive van der Waals interaction $V_{{\bf r} {\bf r'}}$ between excited atoms at sites ${\bf r}$ and ${\bf r'}$. Here we study such atoms in a two-leg ladder geometry in the presence of both staggered and uniform detuning with amplitudes $\Delta$ and $\lambda$ respectively. We show that when $V_{{\bf r r'}} \gg(\ll) \Delta, \lambda$ for $|{\bf r}-{\bf r'}|=1(>1)$, these ladders host a plateau for a wide range of $\lambda/\Delta$ where the ground states are selected by a quantum order-by-disorder mechanism from a macroscopically degenerate manifold of Fock states with fixed Rydberg excitation density $1/4$. Our study further unravels the presence of an emergent Ising transition stabilized via the order-by-disorder mechanism inside the plateau. We identify the competing terms responsible for the transition and estimate a critical detuning $\lambda_c/\Delta=1/3$ which agrees well with exact-diagonalization based numerical studies. We also study the fate of this transition for a realistic interaction potential $V_{{\bf r} {\bf r'}} = V_0 /|{\bf r}-{\bf r'}|^6$, demonstrate that it survives for a wide range of $V_0$, and provide analytic estimate of $\lambda_c$ as a function of $V_0$. This allows for the possibility of a direct verification of this transition in standard experiments which we discuss.