Thermodynamics of an Incommensurate Quantum Crystal

18 November 2005

journal article
other
Published by American Association for the Advancement of Science (AAAS) in Science

Vol. 310 (5751) , 1164-1166
https://doi.org/10.1126/science.1118625

Abstract

We present a theory of the thermodynamics of an incommensurate quantum solid. The ground state of the solid is assumed to be an incommensurate crystal, with quantum zero-point vacancies and interstitials and thus a non-integer number of atoms per unit cell. We show that at low temperature T , the variation of the net vacancy concentration should be as T ⁴ and that the first correction to the specific heat due to this varies as T ⁷ ; these are quite consistent with experiments on solid helium-4. We also make some observations about the recent experimental reports of “supersolidity” in solid helium-4 that motivate a renewed interest in quantum crystals.

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