2D Gapless Topological Superfluids Generated by Pairing Phases
Abstract
We systematically investigate the ground state phase diagram and the finite temperature phase transitions for a Rydberg-dressed Fermi gas loaded in a bilayer optical lattice. When an effective finite-ranged attraction is induced, our self-consistent mean-field calculation shows that the gapped topological ( -wave) superfluids in each layer are coupled together by the -wave pairing in an intermediate inter-layer distance with a spontaneously modulated phases between these two order parameters. The obtained ground state is a gapless topological superfluid with quantized topological charges characterizing the gapless points, leading to a zero energy flat band at the edges. Finally, we calculate the finite temperature phase diagrams of this two-dimensional gapless superfluid and observe two distinct critical temperatures, demonstrating the fruitful many-body effects on a paired topological superfluids.
Cite
@article{arxiv.2208.00243,
title = {2D Gapless Topological Superfluids Generated by Pairing Phases},
author = {Jiapei Zhuang and Ching-Yu Huang and Po-Yao Chang and Daw-Wei Wang},
journal= {arXiv preprint arXiv:2208.00243},
year = {2022}
}
Comments
11 pages, 5 figures