Analytical and Numerical Verification of the Nernst Theorem for Metals

Iver Brevik; Jan B. Aarseth; Johan S. H{\o}ye; Simen A. Ellingsen

arxiv: quant-ph/0703174 · v4 · pith:HBFWTKGEnew · submitted 2007-03-19 · 🪐 quant-ph · hep-th

Analytical and Numerical Verification of the Nernst Theorem for Metals

Johan S. H{\o}ye , Iver Brevik , Simen A. Ellingsen , Jan B. Aarseth This is my paper

classification 🪐 quant-ph hep-th

keywords casimirenergyfreenernstproportionaltermtheoremzero

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In view of the current discussion on the subject, an effort is made to show very accurately both analytically and numerically how the Drude dispersion model gives consistent results for the Casimir free energy at low temperatures. Specifically, for the free energy near T=0 we find the leading term to be proportional to T^2 and the next-to-leading term proportional to T^{5/2}. These terms give rise to zero Casimir entropy as T approaches zero, and is thus in accordance with Nernst's theorem.

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Analytical and Numerical Verification of the Nernst Theorem for Metals

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