Residual Entropy of Square Ice

Elliott H. Lieb

doi:10.1103/PhysRev.162.162

Residual Entropy of Square Ice

Elliott H. Lieb

Phys. Rev. 162, 162 – Published 5 October 1967

Abstract

At low temperatures, ice has a residual entropy, presumably caused by an indeterminacy in the positions of the hydrogen atoms. While the oxygen atoms are in a regular lattice, each O-H-O bond permits two possible positions for the hydrogen atom, subject to certain constraints called the "ice condition." The statement of the problem in two dimensions is to find the number of ways of drawing arrows on the bonds of a square planar net so that precisely two arrows point into each vertex. If $N$ is the number of molecules and (for large $N$ ) $W^{N}$ is the number of arrangements, then $S = N k \ln W$ . Our exact result is $W = {(\frac{4}{3})}^{\frac{3}{2}}$ .

Received 22 May 1967

DOI:https://doi.org/10.1103/PhysRev.162.162

Authors & Affiliations

Elliott H. Lieb^*

Department of Physics, Northeastern University, Boston, Massachusetts

^*Work supported by National Science Foundation Grant No. GP-6851.

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Vol. 162, Iss. 1 — October 1967

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Residual Entropy of Square Ice

Elliott H. Lieb

Phys. Rev. 162, 162 – Published 5 October 1967

Abstract

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Physical Review Journals Archive

Published by the American Physical Society

Residual Entropy of Square Ice

Elliott H. Lieb

Phys. Rev. 162, 162 – Published 5 October 1967

Abstract

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