Quantum Dynamics of a Bose Superfluid Vortex

L. Thompson; P. C. E. Stamp

arXiv:1110.6386·cond-mat.mes-hall·May 21, 2012

Quantum Dynamics of a Bose Superfluid Vortex

L. Thompson, P. C. E. Stamp

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Abstract

We derive a fully quantum-mechanical equation of motion for a vortex in a 2-dimensional Bose superfluid, in the temperature regime where the normal fluid density $ρ_{n} (T)$ is small. The coupling between the vortex "zero mode" and the quasiparticles has no term linear in the quasiparticle variables -- the lowest-order coupling is quadratic. We find that as a function of the dimensionless frequency $\tilde{Ω} = ℏΩ/ k_{B} T$ , the standard Hall-Vinen/Iordanskii equations are valid when $\tilde{Ω} ≪ 1$ (the "classical regime"), but elsewhere, the equations of motion become highly retarded, with significant experimental implications when $\tilde{Ω} ≳ 1$ .

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TopicsQuantum, superfluid, helium dynamics · Cold Atom Physics and Bose-Einstein Condensates · Physics of Superconductivity and Magnetism