Thermodynamic functions of ideal two- and three-dimensional Fermi gases

It has been established recently that there is an interesting thermodynamic ''equivalence'' between noninteracting Bose and spinless Fermi gases in two dimensions, and between onedimensional Bose and Fermi systems with linear dispersion, both in the grand-canonical ensemble. These are known to be sp

Expressions for the various physical parameters of the ideal Fermi-Dirac gas in two dimensions are derived and compared to the corresponding threedimensional expressions. These derivations show that the Fermi-Dirac functions most applicable to the two-dimensional problem are Fo(\*7), FI(.7), and F~o

A computational method for three-dimensional flows is presented in terms of two stream functions, which may be considered as two components of a generalized vector potential. An iterative scheme is developed such that only a sequence of two-dimensional-like problems, for each function, is solved. Th

In this paper, the theoretical elements of the stream-tube method are considered for the evaluation of strain-rate and strain histories required for the descriptions of memory-integral equations. One interest of the stream-tube analysis lies in the fact that the computation is performed in a transfo