Moment Equations with Maximum Entropy Closurefor Carrier Transport in Semiconductor Devices:Validation in Bulk Silicon | Zendy

A. M. Anile | Zendy; Orazio Muscato | Zendy; Vittorio Romano | Zendy

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Moment Equations with Maximum Entropy Closurefor Carrier Transport in Semiconductor Devices:Validation in Bulk Silicon

Author(s) -

A. M. Anile,

Orazio Muscato,

Vittorio Romano

Publication year - 1999

Publication title -

vlsi design

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.123

H-Index - 24

eISSN - 1065-514X

pISSN - 1026-7123

DOI - 10.1155/2000/82945

Subject(s) - semiconductor , statistical physics , monte carlo method , detailed balance , silicon , closure (psychology) , dispersion relation , electron , balance equation , principle of maximum entropy , moment (physics) , materials science , entropy (arrow of time) , computational physics , physics , mechanics , mathematics , condensed matter physics , classical mechanics , thermodynamics , quantum mechanics , law , statistics , markov model , political science , markov chain , metallurgy

Balance equations based on the moment method for the transport of electrons in siliconsemiconductors are presented. The energy band is assumed to be described by the Kanedispersion relation. The closure relations have been obtained by employing the maximumentropy principle

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