Transient phonon heat transport in quasi-1D nanostructures (Contributo in atti di convegno)

Type
Label
  • Transient phonon heat transport in quasi-1D nanostructures (Contributo in atti di convegno) (literal)
Anno
  • 2009-01-01T00:00:00+01:00 (literal)
Alternative label
  • di Stasio S.; Iazzetta A. (2009)
    Transient phonon heat transport in quasi-1D nanostructures
    in 1st International Conference on Computational Methods for Thermal Problems – ThermaComp2009, Napoli, 8-10 Settembre 2009
    (literal)
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  • di Stasio S.; Iazzetta A. (literal)
Pagina inizio
  • 362 (literal)
Pagina fine
  • 365 (literal)
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  • Computational methods for thermal problems (literal)
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  • pp. 362-365 (ISBN 978-88-7431-459-1). (literal)
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  • 4 (literal)
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  • The Debye model for heat capacity of crystals is used to study the phonon heat transfer properties of quasi-1D structures such as nanowires and nanorods. According to the results reported in previous literature, we schematize a nanowire by a stack of 40 cells, total length 400 nm, with zdirection for heat flux coincident with the axis of nanowire and initial temperature 300 K. Transient temperature (time step 2 ps) field is studied after that at t=0 the wall of the first cell is set at 500 K. The nanostructure dimensions considered in the plane perpendicular to the z-axis are 2-50 nm. Calculations are performed by Monte Carlo simulation for the phonon drift movements and scattering process. The main result is the following: the smaller sizes Lx, Ly, of the simulation cell in the plane perpendicular to the heat flux (x-, y-axis) does influences the rate of temperature transient response in the neighbouring of hot boundary (~50 nm) at short times (200 ps). Moreover, smaller Lx, Ly , yield to predicted longer times (~10 ns) for settling of linear temperature regime and to smaller heat conductivity within 10% at parity of heat flux. (literal)
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  • Istituto Motori, CNR, Napoli, Italy. (literal)
Titolo
  • Transient phonon heat transport in quasi-1D nanostructures (literal)
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  • 9788874314591 (literal)
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  • AAVV (literal)
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  • Massarotti Nicola; Nithiarasu Perumal (literal)
Abstract
  • The Debye model for heat capacity of crystals is used to study the phonon heat transfer properties of quasi-1D structures such as nanowires and nanorods. According to the results reported in previous literature, we schematize a nanowire by a stack of 40 cells, total length 400 nm, with zdirection for heat flux coincident with the axis of nanowire and initial temperature 300 K. Transient temperature (time step 2 ps) field is studied after that at t=0 the wall of the first cell is set at 500 K. The nanostructure dimensions considered in the plane perpendicular to the z-axis are 2-50 nm. Calculations are performed by Monte Carlo simulation for the phonon drift movements and scattering process. The main result is the following: the smaller sizes Lx, Ly, of the simulation cell in the plane perpendicular to the heat flux (x-, y-axis) does influences the rate of temperature transient response in the neighbouring of hot boundary (~50 nm) at short times (200 ps). Moreover, smaller Lx, Ly , yield to predicted longer times (~10 ns) for settling of linear temperature regime and to smaller heat conductivity within 10% at parity of heat flux. (literal)
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