The quantitative application of Fermi-Dirac functions to two- and three-dimensional systems

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(*7). Analogous to the work of McDougall and Stoner in three dimensions, these functions and parameters derived from them are tabulated over the range of the argument, -4 <_ '7 <-20. The physical applications of the tabulated 2D and 3D functions to 3He monolayer and bulk liquid 3He nuclear magnetic susceptibilities, respectively, are considered. Calculational procedures of fitting data to theoretical parameters and criteria for judging the quality of fit of data to both two-and three-dimensional Fermi-Dirac values are discussed.

where 7/=-Iz/kBT and/z is the chemical potential. For the case of threedimensional problems, McDougall and Stoner I computed and tabulated the Fermi-Dirac functions F1/2(.7) --= F and F3/2(.7), as well as the derivatives F', F", F'. These functions were computed over the range of the argument