Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire

M. J. Gilbert; R. Akis; D. K. Ferry

Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire

M. J. Gilbert, R. Akis, D. K. Ferry

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We present a numerical scheme through which different phonon scattering processes can be incorporated into the quantum mechanical simulation of semiconductor devices. This method allows the effects of different phonon processes to be seen individually and without resorting to the use of fitting parameters to approximate the correct physics. We derive equations to include acoustic deformation potential scattering and intervalley phonon scattering accounting for both f- and g- type processes. Using this method we show that we are able to extract the correct mobility for bulk silicon at several different doping densities. The method is then applied to a gated silicon-on-insulator quantum wire device to illustrate the key deviations from the ballistic case that result from the inclusion of these two phonon scattering processes in quantum confined systems.

Original language	English (US)
Title of host publication	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings
Editors	M. Laudon, B. Romanowicz
Pages	229-231
Number of pages	3
State	Published - 2005
Externally published	Yes
Event	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 - Anaheim, CA, United States Duration: May 8 2005 → May 12 2005

Publication series

Name	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings

Other

Other	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005
Country/Territory	United States
City	Anaheim, CA
Period	5/8/05 → 5/12/05

Keywords

MOSFET
Quantum wire
Scattering
Silicon
Simulation

ASJC Scopus subject areas

Engineering(all)

Library availability

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Gilbert, M. J., Akis, R., & Ferry, D. K. (2005). Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire. In M. Laudon, & B. Romanowicz (Eds.), 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings (pp. 229-231). (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire. / Gilbert, M. J.; Akis, R.; Ferry, D. K.
2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. ed. / M. Laudon; B. Romanowicz. 2005. p. 229-231 (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Gilbert, MJ, Akis, R & Ferry, DK 2005, Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire. in M Laudon & B Romanowicz (eds), 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings, pp. 229-231, 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005, Anaheim, CA, United States, 5/8/05.

Gilbert MJ, Akis R, Ferry DK. Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire. In Laudon M, Romanowicz B, editors, 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. 2005. p. 229-231. (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

Gilbert, M. J. ; Akis, R. ; Ferry, D. K. / Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire. 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. editor / M. Laudon ; B. Romanowicz. 2005. pp. 229-231 (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

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abstract = "We present a numerical scheme through which different phonon scattering processes can be incorporated into the quantum mechanical simulation of semiconductor devices. This method allows the effects of different phonon processes to be seen individually and without resorting to the use of fitting parameters to approximate the correct physics. We derive equations to include acoustic deformation potential scattering and intervalley phonon scattering accounting for both f- and g- type processes. Using this method we show that we are able to extract the correct mobility for bulk silicon at several different doping densities. The method is then applied to a gated silicon-on-insulator quantum wire device to illustrate the key deviations from the ballistic case that result from the inclusion of these two phonon scattering processes in quantum confined systems.",

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AB - We present a numerical scheme through which different phonon scattering processes can be incorporated into the quantum mechanical simulation of semiconductor devices. This method allows the effects of different phonon processes to be seen individually and without resorting to the use of fitting parameters to approximate the correct physics. We derive equations to include acoustic deformation potential scattering and intervalley phonon scattering accounting for both f- and g- type processes. Using this method we show that we are able to extract the correct mobility for bulk silicon at several different doping densities. The method is then applied to a gated silicon-on-insulator quantum wire device to illustrate the key deviations from the ballistic case that result from the inclusion of these two phonon scattering processes in quantum confined systems.

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Implementation of separable scattering mechanisms in three-dimensional quantum mechanical simulations of a silicon quantum wire

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Keywords

ASJC Scopus subject areas

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