Quasiparticle disintegration in fermionic superfluids
Abstract
We study the fermionic quasiparticle spectrum in a zero-temperature superfluid Fermi gas, and in particular how it is modified by different disintegration processes. On top of the disintegration by emission of a collective boson (, subject of a previous study, PRL 124, 073404), we consider here disintegration events where three quasiparticles are emitted (). We show that both disintegration processes are described by a -matrix self-energy (as well as some highly off-resonant vacuum processes), and we characterize the associated disintegration continua. At strong coupling, we show that the quasiparticle spectrum is heavily distorted near the disintegration threshold. Near the dispersion minimum, where the quasiparticles remain well-defined, the main effect of the off-shell disintegration processes is to shift the location of the minimum by a value that corresponds to the Hartree shift in the BCS limit. With our approximation of the self-energy, the correction to the energy gap with respect to the mean-field result however remains small, in contrast with experimental measurements.
Cite
@article{arxiv.2111.04692,
title = {Quasiparticle disintegration in fermionic superfluids},
author = {Senne Van Loon and Jacques Tempere and Hadrien Kurkjian},
journal= {arXiv preprint arXiv:2111.04692},
year = {2022}
}
Comments
45 pages, 13 figures, code can be found on https://github.com/hkurkjian/CodeArXiv_2111_04692