Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2008-11-13
Physics
Condensed Matter
Statistical Mechanics
44 pages, 25 figures, to appear in Statistical Mechanics (Nova Science Publishers, N.Y., USA) 2008
Scientific paper
The heat capacity (C) of a mesoscopic nonsuperconducting fermion system treated as a canonical ensemble of independent particles is studied in a wide range of particle numbers and temperatures which vary from values close to zero up to the Fermi energy. The temperature evolution of C is naturally divided into four stages. On the first one the heat capacity exponentially increases with temperature and at a resonance temperature reaches either a local maximum or an irregularity in its growth. This resonance temperature being measured can give information concerning the level spacings in the immediate proximity of the Fermi energy. On the second stage the progressive suppression of the level density oscillations takes place. During this stage oscillations of C v.s. particle number N can be distinctly observed. These oscillations give the N-variations of the temperature averaged level density. The growth of C on the third stage of the evolution is governed by the T-linear law if the particle number is large enough (N>1000). It is found that the Sommerfeld factor in the linear law for such small systems shows more complicated N-dependence as compared with large systems where C is strictly proportional to N. For temperatures tending to the Fermi energy the deviations from the T-linearity are evident and at T larger than the Fermi energy (the fourth stage of the evolution) any system attains to the classic Boltzmann-Maxwell limit irrespective of the particle
Kuzmenko N. K.
Mikhajlov V. M.
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