Phase diagram for strong-coupling Bose polarons

Christianen, Arthur; Cirac, J. Ignacio; Schmidt, Richard

doi:10.21468/scipostphys.16.3.067

SciPost Phys.

2024

DOI: 10.21468/scipostphys.16.3.067

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Phase diagram for strong-coupling Bose polarons

Arthur Christianen,

J. Ignacio Cirac,

Richard Schmidt

Abstract: Important properties of complex quantum many-body systems and their phase diagrams can often already be inferred from the impurity limit. The Bose polaron problem describing an impurity atom immersed in a Bose-Einstein condensate is a paradigmatic example. The interplay between the impurity-mediated attraction between the bosons and their intrinsic repulsion makes this model rich and interesting, but also complex to describe theoretically. To tackle this challenge, we develop a quantum chemistry-inspired compu… Show more

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2024

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Cited by 4 publications

References 121 publications

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Quantum mixtures of ultracold gases of neutral atoms

Baroni,

Lamporesi,

Zaccanti

2024

Nat Rev Phys

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Quantum mixtures of ultracold gases of neutral atoms

Baroni,

Lamporesi,

Zaccanti

2024

Nat Rev Phys

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Lattice polaron in a Bose–Einstein condensate of hard-core bosons

Santiago-García,

Castillo-López,

Camacho-Guardian

2024

New J. Phys.

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Lattice polarons, quasiparticles arising from the interaction between an impurity and its surrounding bosonic environment confined to a lattice system, have emerged as a platform for generating complex few-body states, probing many-body phenomena, and addressing long-standing problems in physics. In this study, we employ a variational ansatz to investigate the quasiparticle and spectral properties of an impurity coupled to a condensate gas of hard-core bosons in a two-dimensional optical lattice. Our findings demonstrate that the polaron features can be tuned by adjusting the filling factor of the bath, revealing intriguing polaron characteristics in the strongly interacting regime. These results offer valuable insights for lattice polaron experiments with ultracold gases and can serve as a guide for new experiments in emergent quantum devices, such as moiré materials, where optical excitations can be described in terms of hard-core bosons.

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Weak and strong coupling polarons in binary Bose–Einstein condensates

Liu

2024

Phys. Scr.

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The Bose polaron is a quasiparticle that arises from the interaction between impurities and Bogoliubov excitation in Bose–Einstein condensates, analogous to the polaron formed by electrons and phonons in solid-state physics. In this paper, we investigate the effect of phase separation on weakly coupled and strongly coupled Bose polarons. Our findings reveal that phase separation induces a remarkable alteration in the properties of weakly coupled Bose polarons. However, in the case of strong coupling, phase separation cannot destroy the highly self-trapping state of Bose polarons.

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Phase diagram for strong-coupling Bose polarons

Cited by 4 publications

References 121 publications

Quantum mixtures of ultracold gases of neutral atoms

Quantum mixtures of ultracold gases of neutral atoms

Lattice polaron in a Bose–Einstein condensate of hard-core bosons

Weak and strong coupling polarons in binary Bose–Einstein condensates

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