Litcius/Paper detail

Genuine multipartite correlations in a boundary time crystal

Antônio C. Lourenço, Luis Fernando dos Prazeres, Thiago O. Maciel, Fernando Iemini, Eduardo I. Duzzioni

2022Physical review. B./Physical review. B24 citationsDOIOpen Access PDF

Abstract

In this paper we study genuine multipartite correlations (GMC's) in a boundary time crystal (BTC). Boundary time crystals are nonequilibrium quantum phases of matter in contact to an environment, for which a macroscopic fraction of the many-body system breaks the time translation symmetry. We analyze both (i) the structure (orders) of GMC's among the subsystems, as well as (ii) their build-up dynamics for an initially uncorrelated state. We find that, in the thermodynamic limit (and only in such a limit), multipartite correlations of all orders grow indefinitely in time in the BTC phase, further displaying a persistent oscillatory behavior around their mean growth. The orders of the correlations show a power-law decaying hierarchy among its $k$ partitions. Moreover, in the long-time limit the GMC's are shown extensive with the system size, contrasting to the subextensive scaling in the non time crystals (ferromagnetic) phase of the model. We also discuss the classical and quantum nature of these correlations with basis on multipartite entanglement witnesses, specifically, the analysis of the quantum Fisher information (QFI). Both GMC and QFI are able to capture and distinguish the different phases of the model. Our paper highlights the genuine many-body properties of these peculiar nonequilibrium phases of matter.

Topics & Concepts

MultipartiteBoundary (topology)Statistical physicsMathematicsCrystal (programming language)PhysicsComputer scienceQuantum mechanicsMathematical analysisQuantumQuantum entanglementProgramming languageQuantum many-body systemsQuantum Information and CryptographyCold Atom Physics and Bose-Einstein Condensates