Excitations of a Binary Dipolar Supersolid

W. Kirkby; Au-Chen Lee; D. Baillie; T. Bland; F. Ferlaino; P. B. Blakie; R. N. Bisset

doi:10.1103/PhysRevLett.133.103401

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Excitations of a Binary Dipolar Supersolid

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Excitations of a Binary Dipolar Supersolid

W. Kirkby, Au-Chen Lee, D. Baillie, T. Bland, F. Ferlaino, P. B. Blakie and R. N. Bisset

Physical review letters, Vol.133(10), 103401

09/2024

DOI: https://doi.org/10.1103/PhysRevLett.133.103401

Handle:

https://hdl.handle.net/10523/42326

Abstract

Dipolar gases

Bose-Einstein condensates

Supersolids

mixtures of atomic or molecular quantum gases

We predict a rich excitation spectrum of a binary dipolar supersolid in a linear crystal geometry, where the ground state consists of two partially immiscible components with alternating, interlocking domains. We identify three Goldstone branches, each with first-sound, second-sound, or spin-sound character. In analogy with a diatomic crystal, the resulting lattice has a two-domain primitive basis and we find that the crystal (first-sound-like) branch is split into optical and acoustic phonons. We also find a spin-Higgs branch that is associated with the supersolid modulation amplitude.

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Record Identifier: 9926566492801891
Title: Excitations of a Binary Dipolar Supersolid
Creators: W. Kirkby
Au-Chen Lee
D. Baillie
T. Bland
F. Ferlaino
P. B. Blakie
R. N. Bisset
Publication Details: Physical review letters, Vol.133(10), 103401
Academic Unit: Dodd-Walls Centre for Photonic and Quantum Tech; Physics
Publisher: American Physical Society
Date published ; e-published: 09/2024
Language: English
Resource Type ; Subtype: Journal article