The static fluctuation approximation (SFA) is used to study the condensate fraction and the
specific heat capacity of finite two-dimensional spin-polarized atomic hydrogen. It is found …

A system of a finite number of harmonically-trapped bosons in one-dimension interacting
through a contact repulsive or attractive potential is investigated. The static fluctuation …

Using the static fluctuation approximation, finite two-dimensional Bose gas systems, trapped
in a harmonic potential, are investigated. The interparticle potential is taken as a δ-function …

The condensation fraction, transition temperature, and heat capacity per particle have been
calculated for the spin-polarized atomic hydrogen system using the static fluctuation …

In this work, the thermodynamic properties of spin-polarized asymmetric hot nuclear matter
are studied within the Static Fluctuation Approximation (SFA). Specifically, the energy per …

The thermodynamic properties of spin-polarized 6 Li atoms in highly elongated traps are
studied within the Static Fluctuation Approximation. The chemical potential μ, energy per …

The static fluctuation approximation (SFA) is applied to compute the thermodynamic
properties of a trapped two-dimensional (2D) interacting hard-sphere (HS) Bose gas in the …

A hard-sphere (HS) Bose gas in a trap is investigated at finite temperatures in the weakly
interacting regime and its thermodynamic properties are evaluated using the static …

Nonrelativistic neutron matter is investigated in the static fluctuation approximation (SFA)
within the framework of the Bethe homework problem. The idea is to introduce this new …

The thermodynamic properties of two-dimensional graphene nanosystems are investigated
using the static fluctuation approximation (SFA). These properties are analyzed using both …