An Efficient Solution Scheme for the Spherical-Harmonics
Expansion of the Boltzmann Transport Equation Applied
to Two-Dimensional Devices
This paper presents a novel numerical scheme applicable to the solution of the Boltzmann transport equation by means of a spherical-harmonics expansion. This scheme improves the solution at low energies, keeping the desired accuracy in the calculation of the mean quantities while saving a significant amount of CPU time. This is important in view of the applications of the method, since the typical number of nodes to be used in the combined space-energy domain is in the range of 104105.
1993 ◽
Vol 12
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pp. 1706-1713
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1995 ◽
pp. 416-419
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1992 ◽
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1993 ◽
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1993 ◽
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1998 ◽
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pp. 1080-1089
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