Modeling of polarization-specific phonon transmission through interfaces

Journal of Heat Transfer

Volumn 133, Issue 11, 2011, Pages

  Huang, Zhen ^a   Murthy, Jayathi Y ^a   Fisher, Timothy S ^a  

^a Purdue University   (United States)

Author keywords

Green's function; phonon; polarization specific; transmission function

Indexed keywords

A-DENSITY; BULK MATERIALS; DENSITY OF STATE; EIGENVALUES; GREEN'S FUNCTION METHODS; MATRIX; PHONON BRANCHES; PHONON POLARIZATION; POLARIZATION-SPECIFIC; SELF ENERGY; TRANSMISSION FUNCTION;

EIGENVALUES AND EIGENFUNCTIONS; GREEN'S FUNCTION; MATERIALS HANDLING EQUIPMENT; PHONONS; POLARIZATION;

DISSIMILAR MATERIALS;

EID: 80053262877     PISSN: 00221481     EISSN: 15288943     Source Type: Journal    
DOI: 10.1115/1.4004400     Document Type: Article

References (10)

1. Kürti, N., Rollin, B. V., and Simon, F., 1936, "Preliminary Experiments on Temperature Equilibria at Very Low Temperatures," Physica, 3(1-4), pp. 266-274.
2. Kapitza, P. L., 1941, "The Study of Heat Transfer in Helium II," J. Phys. (USSR), 4, pp. 181-210.
3. Swartz, E. T., and Pohl, R. O., 1989, "Thermal Boundary Resistance," Rev. Mod. Phys., 61(3), pp. 605-668.
4. Little, W. A., 1959, "The Transport of Heat Between Dissimilar Solids at Low Temperature," Can. J. Phys., 37, pp. 334-349.
5. Cheeke, J., Ettinger, H., and Herbal, B., 1976, "Analysis of Heat Transfer Between Solids at Low Temperatures," Can. J. Phys., 54, pp. 1749-1771.
6. Mingo, N., and Yang, L., 2003, "Phonon Transport in Nanowires Coated With an Amorphous Material: An Atomistic Green's Function Approach," Phys. Rev. B, 68(24), 245406.
7. Duda, J. C., Beechem, T. E., Smoyer, J. L., Norris, P. M., and Hopkins, P. E., 2010, "Role of Dispersion on Phononic Thermal Boundary Conductance," J. Appl. Phys., 108(7), 073515.
8. Zhang, W., Fisher, T. S., and Mingo, N., 2007, "The Atomistic Green's Function Method: An Efficient Simulation Approach for Nanoscale Phonon Transport," Numer. Heat Transfer, Part B, 51(3), pp. 333-349. (Pubitemid 46361514)
9. Zhang, W., Fisher, T. S., and Mingo, N., 2007, "Simulation of Interfacial Phonon Transport in Si-Ge Heterostructures Using an Atomistic Green's Function Method," ASME J. Heat Transfer, 129(4), pp. 483-491. (Pubitemid 47096460)
10. Wang, J., and Wang, J.-S., 2006, "Mode-Dependent Energy Transmission Across Nanotube Junctions Calculated With a Lattice Dynamics Approach," Phys. Rev. B, 74(5), 054303.