Thermal conductivity of ice
- 15 September 1980
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 22 (6) , 3065-3071
- https://doi.org/10.1103/physrevb.22.3065
Abstract
The thermal conductivity of ice, the low-pressure phase of O, is reviewed and good agreement is found with the theoretical calculations of its absolute value and temperature dependence. Measurements under pressure show an anomalous decrease in conductivity with decreasing molar volume. This is explained by the negative Grüneisen parameter for the transverse acoustic modes which dominate the heat transport. The conductivity behaves predominantly like that of a wurtzite lattice of rigid mass points with an atomic mass of 18. Some traces of the interaction of the lattice phonons with the higher-lying librational modes can be seen. The volume dependence of the conductivity of the higher-pressure phases of ice and of NF is related to that of ice.
Keywords
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