Superfluid-to-Mott transition in a Bose-Hubbard ring: Persistent currents and defect formation

L. Kohn, P. Silvi, M. Gerster, M. Keck, R. Fazio, G. E. Santoro, and S. Montangero

Phys. Rev. A 101, 023617 – Published 24 February 2020

Abstract

We revisit here the Kibble-Zurek mechanism for superfluid bosons slowly driven across the transition toward the Mott-insulating phase. By means of a combination of the time-dependent variational principle and a tree-tensor network, we characterize the current flowing during annealing in a ring-shaped one-dimensional Bose-Hubbard model with artificial classical gauge field on up to 32 lattice sites. We find that the superfluid current shows, after an initial decrease, persistent oscillations which survive even when the system is well inside the Mott insulating phase. We demonstrate that the amplitude of such oscillations is connected to the residual energy, characterizing the creation of defects while crossing the quantum critical point, while their frequency matches the spectral gap in the Mott insulating phase. Our predictions can be verified in future atomtronics experiments with neutral atoms in ring-shaped traps. We believe that the proposed setup provides an interesting but simple platform to study the nonequilibrium quantum dynamics of persistent currents experimentally.

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Received 18 July 2019
Accepted 22 January 2020

DOI:https://doi.org/10.1103/PhysRevA.101.023617

Physics Subject Headings (PhySH)

Bose gases Cold atoms & matter waves Cold gases in optical lattices

Tensor network methods

Atomic, Molecular & Optical

Authors & Affiliations

L. Kohn ¹, P. Silvi², M. Gerster ³, M. Keck⁴, R. Fazio^5,6, G. E. Santoro^1,5,7, and S. Montangero^8,9

¹SISSA, Via Bonomea 265, 34136 Trieste, Italy
²Center for Quantum Physics, and Institute for Experimental Physics, University of Innsbruck & Institute for Quantum Optics and Quantum Information, Austrian Academy of Sciences, A-6020 Innsbruck, Austria
³Institute for Complex Quantum Systems & Center for Integrated Quantum Science and Technology (IQST), Ulm University, Albert-Einstein-Allee 11, D-89069 Ulm, Germany
⁴NEST, Scuola Normale Superiore & Istituto Nanoscienze-CNR, I-56126 Pisa, Italy
⁵Abdus Salam ICTP, Strada Costiera 11, I-34151 Trieste, Italy
⁶Dipartimento di Fisica, Università di Napoli Federico II, Monte S. Angelo, I-80126 Napoli, Italy
⁷CNR-IOM Democritos National Simulation Center, Via Bonomea 265, 34136 Trieste, Italy
⁸Dipartimento di Fisica e Astronomia G. Galilei, Università di Padova, I-35131 Padova, Italy
⁹Istituto Nazionale di Fisica Nucleare (INFN), Sezione di Padova, I-35131 Padova, Italy

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Vol. 101, Iss. 2 — February 2020

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