DocumentCode
2045
Title
Quantum Modeling of the Carrier Mobility in FDSOI Devices
Author
Viet-Hung Nguyen ; Niquet, Yann-Michel ; Triozon, Francois ; Duchemin, Ivan ; Nier, O. ; Rideau, D.
Author_Institution
Lab. de Simulation Atomistique, Univ. Grenoble Alpes, Grenoble, France
Volume
61
Issue
9
fYear
2014
fDate
Sept. 2014
Firstpage
3096
Lastpage
3102
Abstract
We compute the electron and hole mobilities in ultrathin body and buried oxide, fully depleted silicon on insulator devices with various high-(kappa ) metal gate-stacks using nonequilibrium Green´s functions (NEGF). We compare our results with experimental data at different back gate biases and temperatures. That way, we are able to deembed the different contributions to the carrier mobility in the films (phonons, front and back interface roughness, and remote Coulomb scattering). We discuss the role played by each mechanism in the front and back interface inversion regimes. We draw attention, in particular, to the clear enhancement of electron- and hole-phonons interactions in the films. These results show that FDSOI devices are a foremost tool to sort out the different scattering mechanisms in Si devices, and that NEGF can provide valuable inputs to technology computer aided design.
Keywords
Green´s function methods; electron mobility; electron-phonon interactions; hole mobility; semiconductor device models; semiconductor devices; silicon-on-insulator; FDSOI devices; Si; back gate biases; buried oxide; carrier mobility; electron mobility; electron-phonons interactions; fully depleted silicon on insulator devices; hole mobility; hole-phonons interactions; interface inversion regimes; interface roughness; metal gate-stacks; nonequilibrium Green´s functions; quantum modeling; remote Coulomb scattering; technology computer aided design; ultrathin body; Charge carrier processes; Computational modeling; Logic gates; Phonons; Rough surfaces; Scattering; Surface roughness; Carrier--phonon interactions; Carrier-phonon interactions; FDSOI devices; Green´s functions; Green??s functions; mobility; mobility.;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2014.2337713
Filename
6867360
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