Quantum Hydrodynamics of Vorticity
Abstract
We formulate a quantum theory of vorticity (hydro)dynamics on a general two-dimensional bosonic lattice. In the classical limit of a bosonic condensate, it reduces to conserved plasma-like vortex-antivortex dynamics. The nonlocal topological character of the vorticity flows is reflected in the bulk-edge correspondence dictated by the Stokes theorem. This is exploited to establish physical boundary conditions that realize, in the coarse-grained thermodynamic limit, an effective chemical-potential bias of vorticity. A Kubo formula is derived for the vorticity conductivity|which could be measured in a suggested practical device|in terms of quantum vorticity-flux correlators of the original lattice model. As an illustrative example, we discuss the superfluidity of vorticity, exploiting the particle-vortex duality at a bosonic superfluid-insulator transition.
Cite
@article{arxiv.1908.10474,
title = {Quantum Hydrodynamics of Vorticity},
author = {Yaroslav Tserkovnyak and Ji Zou},
journal= {arXiv preprint arXiv:1908.10474},
year = {2019}
}
Comments
7 pages, 2 figures