Persistent Non-Gaussian Correlations in Out-of-Equilibrium Rydberg Atom Arrays
PRX Quantum American Physical Society (APS) 4:4 (2023) 040339
Twenty-five years of analogue quantum simulation
Nature Reviews Physics Springer Nature 5:12 (2023) 702-703
AdS/CFT correspondence with a three-dimensional black hole simulator
Physical Review B American Physical Society (APS) 108:15 (2023) 155124
Onset of Scrambling as a Dynamical Transition in Tunable-Range Quantum Circuits
PRX Quantum American Physical Society (APS) 4:3 (2023) 30325
Abstract:
In a fast-scrambling many-body quantum system, information is spread and entanglement is built up on a time scale that grows logarithmically with the system size. This is of fundamental interest in understanding the dynamics of many-body systems, as well as in efficiently producing entangled resource states and error-correcting codes. In this work, we identify a dynamical transition marking the onset of scrambling in quantum circuits with different levels of long-range connectivity. In particular, we show that as a function of the interaction range for circuits of different structures, the tripartite mutual information exhibits a scaling collapse around a critical point between two clearly defined regimes of different dynamical behavior. We study this transition analytically in a related long-range Brownian-circuit model and show how the transition can be mapped onto the statistical mechanics of a long-range Ising model in a particular region of parameter space. This mapping predicts mean-field critical exponents ν=-1/(1+sc), which are consistent with the critical exponents extracted from Clifford-circuit numerics. In addition to systems with conventional power-law interactions, we identify the same phenomenon in deterministic sparse circuits that can be realized in experiments with neutral-atom arrays.Can multipartite entanglement be characterized by two-point connected correlation functions?
Journal of Physics A: Mathematical and Theoretical IOP Publishing 56:30 (2023) 305302