M. Grether, M. de Llano, M. A. Solís
Published 2002-12-19Version 1
Normal behavior of the thermodynamic properties of a Fermi gas in $d>2$ dimensions, integer or not, means monotonically increasing or decreasing of its specific heat, chemical potential or isothermal sound velocity, all as functions of temperature. However, for $0<d<2$ dimensions these properties develop a ``hump'' (or ``trough'') which increases (or deepens) as $d\to 0$. Though not the phase transition signaled by the sharp features (``cusp'' or ``jump'') in those properties for the ideal Bose gas in $d>2$ (known as the Bose-Einstein condensation), it is nevertheless an intriguing structural anomaly which we exhibit in detail.
Comments: 14 pages including 3 figures
Journal: Eur. Phys. J. D. 25, 287-291 (2003)
Corrections to scaling for percolative conduction: anomalous behavior at small L
On Ising and dimer models in two and three dimensions
Comparison of rigidity and connectivity percolation in two dimensions
