Thermodynamics of ideal Fermi gas under generic power law potential in d-dimension

Abstract

Thermodynamics of ideal Fermi gas trapped in an external generic power law potential U=Σi=1 d ci |xiai|ni are investigated systematically from the grand thermodynamic potential in d dimensional space. These properties are explored deeply in the degenerate limit (μ>> KBT), where the thermodynamic properties are greatly dominated by Pauli exclusion principle. Pressure and energy along with the isothermal compressibilty is non zero at T=0K, denoting trapped Fermi system is quite live even at absolute zero temperature. The nonzero value of compressibilty denotes zero point pressure is not just a constant but depends on volume.