Coreless Vortices in Rotating Two-Component Quantum Droplets

Details Coreless Vortices in Rotating Two-Component Quantum Droplets Coreless Vortices in Rotating Two-Component Quantum Droplets

2008-12-17

arxiv.org/abs/0812.3366v1

Physics

Condensed Matter

Mesoscale and Nanoscale Physics

4 pages, 5 figures

Scientific paper

The rotation of a quantum liquid induces vortices to carry angular momentum. When the system is composed of multiple components that are distinguishable from each other, vortex cores in one component may be filled by particles of the other component, and coreless vortices form. Based on evidence from computational methods, here we show that the formation of coreless vortices occurs very similarly for repulsively interacting bosons and fermions, largely independent of the form of the particle interactions. We further address the connection to the Halperin wave functions of non-polarized quantum Hall states.

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