An extended hydrodynamic model will be used for the coupled system of electrons and phonons. This system is formed by a set of balance equations derived from the Bloch-Boltzmann-Peierls (BBP) kinetic equations applying the moment method and solving the problem of the closure by means of the Maximum Entropy Principle of Extended Thermodynamics. By using this model with a suitable limit, thermoelectric effects in bulk silicon are investigated

Seebeck Effect in Silicon Semiconductors

DI STEFANO, VINCENZA;MUSCATO, Orazio
2012-01-01

Abstract

An extended hydrodynamic model will be used for the coupled system of electrons and phonons. This system is formed by a set of balance equations derived from the Bloch-Boltzmann-Peierls (BBP) kinetic equations applying the moment method and solving the problem of the closure by means of the Maximum Entropy Principle of Extended Thermodynamics. By using this model with a suitable limit, thermoelectric effects in bulk silicon are investigated
2012
hydrodynamic; semiconductors; seebeck effect
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/34683
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