Theory of the rotating polaron: Spectrum and self-localization

Enderalp Yakaboylu, Bikashkali Midya, Andreas Deuchert, Nikolai Leopold, and Mikhail Lemeshko
Phys. Rev. B 98, 224506 – Published 12 December 2018
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  • INTRODUCTION
  • THE HAMILTONIAN
  • THE WEAK-COUPLING REGIME
  • THE STRONG COUPLING REGIME AND…
  • CONCLUSIONS
  • ACKNOWLEDGMENTS
  • APPENDICES
    • References

    Abstract

    We study a quantum impurity possessing both translational and internal rotational degrees of freedom interacting with a bosonic bath. Such a system corresponds to a “rotating polaron,” which can be used to model, e.g., a rotating molecule immersed in an ultracold Bose gas or superfluid helium. We derive the Hamiltonian of the rotating polaron and study its spectrum in the weak- and strong-coupling regimes using a combination of variational, diagrammatic, and mean-field approaches. We reveal how the coupling between linear and angular momenta affects stable quasiparticle states, and demonstrate that internal rotation leads to an enhanced self-localization in the translational degrees of freedom.

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    • Received 18 September 2018
    • Revised 20 November 2018

    DOI:https://doi.org/10.1103/PhysRevB.98.224506

    ©2018 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    Bose gasesImpuritiesPolaronsQuasiparticles & collective excitations
    1. Physical Systems
    Bose-Einstein condensates
    Condensed Matter, Materials & Applied Physics

    Authors & Affiliations

    Enderalp Yakaboylu1,*, Bikashkali Midya1,2,†, Andreas Deuchert1,‡, Nikolai Leopold1,§, and Mikhail Lemeshko1,∥

    • 1IST Austria (Institute of Science and Technology Austria), Am Campus 1, 3400 Klosterneuburg, Austria
    • 2Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, Pennsylvania 19104, USA

    • *enderalp.yakaboylu@ist.ac.at
    • bmidya@seas.upenn.edu
    • andreas.deuchert@ist.ac.at
    • §nikolai.leopold@ist.ac.at
    • mikhail.lemeshko@ist.ac.at

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    Issue

    Vol. 98, Iss. 22 — 1 December 2018

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