How to realize a homogeneous dipolar Bose gas in the roton regime

Juhász, Péter; Milan, Krstajić,; Strachan, David P.; Gandar, Edward; Smith, Robert P.

doi:10.1103/physreva.105.l061301

Cited by 5 publications

(2 citation statements)

References 51 publications

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“…2 (c2,d2). These peaked shoulders are reminiscent of those triggered in dipolar condensates trapped by hard walls [59,[61][62][63], where in our case the domain interface plays the role of the wall. These modulations may signal a density roton within the antidipolar component domains.…”

Section: Ground-state Properties 41 Binary Antidipolar Supersolidsmentioning

confidence: 54%

Spin rotons and supersolids in binary antidipolar condensates

Kirkby¹,

Bland²,

Ferlaino³

et al. 2023

Preprint

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We present a theoretical study of a mixture of antidipolar and nondipolar Bose-Einstein condensates confined to an infinite tube. The long-ranged inverted dipolar interactions result in a spin roton instability associated with an unmodulated-to-supersolid phase transition. We present a phase diagram including unmodulated miscible, supersolid, incoherent domain, and macroscopic domain phases. The low densities of the binary mixture do not require beyond-mean-field quantum fluctuation corrections for stabilization. Our survey ranges from the quasi-1D to the radial Thomas-Fermi (elongated 3D) regimes. We also present the dynamic formation of supersolids following a quench from the uniform miscible phase, which maintains phase coherence across the system. Conclusions 12A Derivation of Bogoliubov-de Gennes excitations 12 B Initial state preparation for dynamics 13 References 13

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Section: Ground-state Properties 41 Binary Antidipolar Supersolidsmentioning

confidence: 54%

Spin rotons and supersolids in binary antidipolar condensates

Kirkby¹,

Bland²,

Ferlaino³

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…2 (c2,d2). These peaked shoulders are reminiscent of those triggered in dipolar condensates trapped by hard walls [64,[67][68][69], where in our case the domain interface plays the role of the wall. These modulations may signal a density roton within the antidipolar component domains.…”

Section: Ground-state Properties 41 Binary Antidipolar Supersolidsmentioning

confidence: 54%

Spin rotons and supersolids in binary antidipolar condensates

Kirkby,

Bland,

Ferlaino

et al. 2023

SciPost Phys. Core

View full text Add to dashboard Cite

We present a theoretical study of a mixture of antidipolar and nondipolar Bose-Einstein condensates confined to an infinite tube. We predict the presence of a spin roton and its associated instability, which triggers a continuous unmodulated-to-supersolid phase transition. We characterize the phase diagram of the binary system, ranging from the quasi-1D to the radial Thomas-Fermi (elongated 3D) regimes. We also present the dynamic formation of supersolids following a quench from the uniform miscible phase, which maintains phase coherence across the system.

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