D. H. Santamore, M. C. Cross
Published 2000-11-28, updated 2001-05-25Version 2
We explain the reduction of the thermal conductance below the predicted universal value observed by Schwab et al. in terms of the scattering of thermal phonons off surface roughness using a scalar model for the elastic waves. Our analysis shows that the thermal conductance depends on two roughness parameters: the roughness amplitude $\delta $ and the correlation length $a$. At sufficiently low temperatures the conductance decrease from the universal value quadratically with temperature at a rate proportional to $\delta ^{2}a$. Values of $\delta$ equal to 0.22 and $a$ equal to about 0.75 of the width of the conduction pathway give a good fit to the data.
Comments: 10 pages, 5 figures. Ref. added, typo corrected
Journal: Phys. Rev. B 63, 184306 (2001)
Effect of phonon scattering by surface roughness on the universal thermal conductance
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