https://doi.org/10.1140/epjb/e2003-00089-3
Use of the chemical potential for a limited number of fermions with a degenerate groundstate
1
Departement Natuurkunde, Universiteit Antwerpen (RUCA),
Groenenborgerlaan 171, 2020 Antwerpen, Belgium
2
Departement Natuurkunde, Universiteit Antwerpen (UIA),
Universiteitsplein 1, 2610 Antwerpen, Belgium
Received:
25
November
2002
Revised:
20
February
2003
Published online:
1
April
2003
For fermions with degenerate single-particle energy levels, the usual
relation between the total number of particles and the chemical
potential μ is only satisfied for a specific number of particles, i.e. those
leading to closed shells. The treatment of an arbitrary number of fermions
requires a modification of the chemical potential, similar to the one
proposed by Landsberg for Bose-condensed systems. We study the implications
of the required modification for fermions in a potential, by
calculating the ground state energy, the free energy, the density, the
partition function and the dynamic two-point correlation function. It turns
out that the modified relation between the fugacity and the number of
particles leads to the correct ground state energy and density. But for
other quantities like the entropy and the two-point correlation functions,
an additional correction is required and derived. These calculations
indicate that many-body perturbation theories based on 
with
Lagrange multiplier 
, are not applicable in unmodified form for a
fixed number of fermions at low temperature.
PACS: 05.30.Fk – Fermion systems and electron gas / 03.75.Ss – Degenerate Fermi gases
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2003
