Litcius/Paper detail

Out-of-time-ordered correlators and the Loschmidt echo in the quantum kicked top: how low can we go?

Sreeram PG, Vaibhav Madhok, Arul Lakshminarayan

2021Journal of Physics D Applied Physics21 citationsDOIOpen Access PDF

Abstract

Abstract The out-of-time-ordered correlators (OTOCs) and the Loschmidt echo are two measures that are now widely being explored to characterize sensitivity to perturbations and information scrambling in complex quantum systems. Studying few qubits systems collectively modeled as a kicked top, we solve exactly the three- and four-qubit cases, giving analytical results for the OTOC and the Loschmidt echo. While we may not expect such few-body systems to display semiclassical features, we find that there are clear signatures of the exponential growth of OTOC even in systems with as low as four qubits in appropriate regimes, paving way for possible experimental measurements. We explain qualitatively how classical phase space structures like fixed points and periodic orbits have an influence on these quantities and how our results compare to the large-spin kicked top model. Finally we point to a peculiar case at the border of quantum–classical correspondence which is solvable for any number of qubits and yet has signatures of exponential sensitivity in a rudimentary form.

Topics & Concepts

QubitSemiclassical physicsPhysicsQuantumQuantum mechanicsScramblingEcho (communications protocol)Phase spaceExponential functionSensitivity (control systems)Statistical physicsQuantum decoherenceQuantum chaosPoint (geometry)Exponential decayPhase (matter)Fixed pointSpace (punctuation)Parameter spaceQuantum discordQuantum computerTheoretical physicsQuantum systemQuantum many-body systemsQuantum chaos and dynamical systemsQuantum Information and Cryptography