English

Hydrodynamics of a superfluid smectic

Quantum Gases 2021-04-07 v2 Statistical Mechanics

Abstract

We determine the hydrodynamic modes of the superfluid analog of a smectic-A phase in liquid crystals, i.e., a state in which both gauge invariance and translational invariance along a single direction are spontaneously broken. Such a superfluid smectic provides an idealized description of the incommensurate supersolid state realized in Bose-Einstein condensates with strong dipolar interactions as well as of the stripe phase in Bose gases with spin-orbit coupling. We show that the presence of a finite normal fluid density in the ground state of these systems gives rise to a well-defined second-sound type mode even at zero temperature. It replaces the diffusive permeation mode of a normal smectic phase and is directly connected with the classic description of supersolids by Andreev and Lifshitz in terms of a propagating defect mode. An analytic expression is derived for the two sound velocities that appear in the longitudinal excitation spectrum. It only depends on the low-energy parameters associated with the two independent broken symmetries, which are the effective layer compression modulus and the superfluid fraction.

Keywords

Cite

@article{arxiv.2012.06569,
  title  = {Hydrodynamics of a superfluid smectic},
  author = {Johannes Hofmann and Wilhelm Zwerger},
  journal= {arXiv preprint arXiv:2012.06569},
  year   = {2021}
}

Comments

20 pages

R2 v1 2026-06-23T20:54:40.278Z