Modeling nanostructure thermal conductivity: effect of phonon distribution function
Author:
Publisher
Springer Science and Business Media LLC
Subject
Physical and Theoretical Chemistry,Condensed Matter Physics
Link
https://link.springer.com/content/pdf/10.1007/s10973-022-11693-x.pdf
Reference38 articles.
1. Awad AH, Dubey KS. Analysis of the lattice thermal conductivity and phonon–phonon scattering relaxation rate: application to Mg2Ge and Mg2Si. J Therm Anal. 1982;24:233–60.
2. Awad AH. Phonon conductivity of InSb in the temperature range 2–800 K. Acta Phys Hungarica. 1988;63(3–4):331–40.
3. Olson JR, Pohl RO, Vandersande JW, Zoltan A, Anthony TR, Banholzer WF. Thermal conductivity of diamond between 170 and 1200 and the isotope effect. Phys Rev B. 1993;47:14850–60.
4. Wei L, Kuo PK, Thomas RL, Anthony TR, Banholzer WF. Thermal conductivity of isotopically modified single crystal diamond. Phys Rev Let. 1993;70:3764–7.
5. Awad AH. Debye temperature dependent lattice thermal conductivity of silicon. J Therm Anal Calor. 1999;55:187–96.
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