Related papers: Frustrated Bose ladder with extended range density-density interaction

Frustrated Bose ladder with extended range density-density interaction

URL: http://arxiv.org/abs/2504.00705v1
Date: Tue, 01 Apr 2025 12:13:06 GMT
Title: Frustrated Bose ladder with extended range density-density interaction
Authors: Sourav Biswas, E. Rico, Tobias Grass,
Abstract summary: When bosons on a two-leg ladder get frustrated by ring exchange interactions, the elusive d-wave Bose liquid (DBL) can be stabilized.<n>We analyze the effect of extended Hubbard interactions on the DBL phase.<n>Our results offer new insights into the physics of frustrated bosons by highlighting the influence of density-density interaction and rung-blockade.
Score: 1.1060425537315088
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: When hard-core bosons on a two-leg ladder get frustrated by ring exchange interactions, the elusive d-wave Bose liquid (DBL) can be stabilized, a bosonic analog of a correlated metal. Here, we analyze the effect of extended Hubbard interactions on the DBL phase. Strikingly, these interactions are found to act in favor of the exotic Bose liquid. This observation is of immediate relevance for physical systems in which non-local exchange processes occur as a consequence of extended-range density-density interactions. Our observation also helps to achieve DBL physics in a synthetic-dimension ladder, where on-site interactions translate into non-local interactions along a synthetic rung. In this context, we also consider the extreme limit, in which the local hardcore constraint is elevated to an effective rung blockade. In addition to the enhancement of DBL physics due to extended-range density-density interactions, we also find signatures of an interesting intermediate phase between the superfluid and the DBL regime. This phase, labeled as the density modulated s-wave paired (DMSP) phase, combines features of density wave and s-wave pairing. Our results offer new insights into the physics of frustrated bosons by highlighting the influence of density-density interaction and rung-blockade.

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