The universalities of a single-component Fermi gas at a p-wave resonant point

We investigate the universalities of a single-component Fermi gas at a p-wave resonant point where the scattering volume is infinite with the lowest-order constrained variational (LOCV) method. We calculate the energy per particle for different effective ranges with different interaction configurati...

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Published in:Europhysics letters 2018-11, Vol.124 (3), p.30007
Main Authors: Liu, Guangcun, Zhang, Yi-Cai
Format: Article
Language:English
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03.75.Ss
05.30.Fk
67.85.-d
Density
Fermi gases
P waves
Parameters
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description We investigate the universalities of a single-component Fermi gas at a p-wave resonant point where the scattering volume is infinite with the lowest-order constrained variational (LOCV) method. We calculate the energy per particle for different effective ranges with different interaction configuration, our result confirms the universality assumption at the p-wave resonant point and we also find the universal parameter which is the counterpart of the Bertsch parameter for the p-wave case. We then examine the density dependence of the energy per particle at the p-wave resonant point and find n2/3 density dependence which is the same as in the s-wave case.
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subjects 03.75.Ss
05.30.Fk
67.85.-d
Density
Fermi gases
P waves
Parameters
title The universalities of a single-component Fermi gas at a p-wave resonant point
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