This paper investigates the anisotropy properties of the relaxation times used in the hydrodynamic model. To this purpose a calculation of the collision term of the Boltzmann Transport Equation is performed by means of a Monte Carlo code accounting for the proper band structure and scattering features. Numerical results for electrons in silicon are shown at 77 and 300 K for E parallel to [100] and E parallel to [111].
Monte Carlo analysis of anisotropy in the transport relaxation times for the hydrodynamic model / Brunetti, Rossella; M. C., Vecchi; M., Rudan. - In: VLSI DESIGN. - ISSN 1065-514X. - STAMPA. - 6:(1998), pp. 161-165.
Monte Carlo analysis of anisotropy in the transport relaxation times for the hydrodynamic model
BRUNETTI, Rossella;
1998
Abstract
This paper investigates the anisotropy properties of the relaxation times used in the hydrodynamic model. To this purpose a calculation of the collision term of the Boltzmann Transport Equation is performed by means of a Monte Carlo code accounting for the proper band structure and scattering features. Numerical results for electrons in silicon are shown at 77 and 300 K for E parallel to [100] and E parallel to [111].
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