https://doi.org/10.1140/epjp/i2015-15195-0
Regular Article
Higher-order fermion effective interactions in a bosonization approach
Instituto de Fısica, Fed. Univ. of Goias, P.B. 131, Campus II, 74.001-970, Goiânia, GO, Brazil
* e-mail: braghin@ufg.br
Received:
25
June
2015
Revised:
13
August
2015
Accepted:
7
September
2015
Published online:
8
October
2015
Three different fermion effective potentials given by series of bilinears, 
and also 
, where a = 1, ... N
r
and integer j, are investigated by introducing sets of auxiliary fields. A mininal procedure is adopted to deal with the auxiliary fields and an effective bosonized model in each case is found by assuming weak field fluctuations, i.e. weak enough when compared to (normalized) coupling constants. Different fermion condensates are considered for the ground state in the first two series analysed and the factorization of all higher-order condensates into the lowest-order one is found in most cases, i.e. in general 
. For the third series built with vector-type bilinears no condensation is assumed to occur. The corresponding (weak) scalar fields effective models for the three cases are expanded in polynomial interactions. The resulting low-energy effective boson model may exhibit a new approximate symmetry depending on the terms present in the original series model and on the values of the coupling constants.
© Società Italiana di Fisica and Springer-Verlag Berlin Heidelberg, 2015
