The renormalized classical spin liquid on the ruby lattice
- URL: http://arxiv.org/abs/2406.07110v1
- Date: Tue, 11 Jun 2024 09:51:28 GMT
- Title: The renormalized classical spin liquid on the ruby lattice
- Authors: Zhenjiu Wang, Lode Pollet,
- Abstract summary: We find a renormalized classical spin liquid with constant entropy density $S/N$ approaching $ln(2)/6$ in the thermodynamic limit.
With Van der Waals interactions, constant entropy plateaus are still found but its value shifts with $delta$.
- Score: 0.5755004576310334
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: The recent experimental detection of the onset of a dynamically prepared, gapped $Z_2$ quantum spin liquid on the ruby lattice brought the physics of frustrated magnetism and lattice gauge theory to Rydberg tweezer arrays (Semeghini et al, Science 374, 1242 (2021)). The thermodynamic properties of such models remain inadequately addressed, yet knowledge thereof is indispensable if one wants to prepare large, robust, and long-lived quantum spin liquids. Using large scale quantum Monte Carlo simulations we find in the PXP model a renormalized classical spin liquid with constant entropy density $S/N$ approaching $\ln(2)/6$ in the thermodynamic limit for all moderate and large values of the detuning $\delta$ and starting from $T/\Omega \sim 0.5$ (in units of the Rabi frequency $\Omega$) down to the lowest temperatures we could simulate, $T/\Omega \sim 0.01$. With Van der Waals interactions, constant entropy plateaus are still found but its value shifts with $\delta$. We comment the adiabatic approximation to the dynamical ramps for the electric degrees of freedom.
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