Thin film phonon heat conduction by the dispersion lattice Boltzmann Method

Journal of Heat Transfer

Volumn 130, Issue 9, 2008, Pages

  Escobar, Rodrigo A ^a   Amon, Cristina H ^b,c  

^a PONTIFICIA UNIVERSIDAD CATÓLICA DE CHILE   (Chile)

^b CARNEGIE MELLON UNIVERSITY   (United States)

^c UNIVERSITY OF TORONTO   (Canada)

Author keywords

Conduction; Lattice boltzmann; Phonon; Thermal conductivity

Indexed keywords

BOLTZMANN EQUATION; DISPERSION (WAVES); DROP FORMATION; FLOW OF FLUIDS; HEAT CONDUCTION; NONLINEAR EQUATIONS; PHONONS; SEMICONDUCTING SILICON COMPOUNDS; SILICON; THERMAL INSULATING MATERIALS; THERMOANALYSIS; THERMODYNAMIC PROPERTIES; THERMOELECTRICITY; THERMOGRAPHY (TEMPERATURE MEASUREMENT); THICK FILMS; THIN FILMS; TWO PHASE FLOW;

BALLISTIC ENERGIES; BOLTZMANN TRANSPORT EQUATIONS; BULK VALUES; CHARACTERISTIC LENGTHS; CONDUCTION; DISCRETE LATTICES; ENERGY TRANSPORT PROCESSES; ENERGY TRANSPORTS; FEATURE SIZES; LATTICE BOLTZMANN; LATTICE BOLTZMANN METHODS; NONLINEAR FREQUENCIES; NUMERICAL MODELS; NUMERICAL SIMULATIONS; OPTICAL PHONONS; PHONON DISPERSIONS; PHONON MEAN FREE PATHS; SEMICONDUCTOR THIN FILMS; SILICON THIN FILMS; TEMPERATURE PROFILES; TO PHONONS;

THERMAL CONDUCTIVITY;

EID: 56449095177     PISSN: 00221481     EISSN: 15288943     Source Type: Journal    
DOI: 10.1115/1.2944249     Document Type: Article

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