The Effect of General Strain on the Band Structure and Electron Mobility of Silicon

The Effect of General Strain on the Band Structure and Electron Mobility of Silicon

A model capturing the effect of general strain on the electron effective masses and band-edge energies of the lowest conduction band of silicon is developed. Analytical expressions for the effective mass change induced by shear strain and valley shifts/splittings are derived using a degenerate kldrp...

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Veröffentlicht in:IEEE transactions on electron devices 2007-09, Vol.54 (9), p.2183-2190
Hauptverfasser: Ungersboeck, E., Dhar, S., Karlowatz, G., Sverdlov, V., Kosina, H., Selberherr, S.
Format: Artikel
Sprache:eng
Schlagworte:
Band structure
Band structure of solids
CMOS technology
Computer simulation
Crystals
Electron mobility
Mathematical analysis
Mathematical models
Monte Carlo methods
MOS devices
MOSFETs
Piezoresistance
shear strain
Silicon
Strain
strain/stress
strained-silicon (Si)
surface mobility
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Beschreibung
Zusammenfassung:A model capturing the effect of general strain on the electron effective masses and band-edge energies of the lowest conduction band of silicon is developed. Analytical expressions for the effective mass change induced by shear strain and valley shifts/splittings are derived using a degenerate kldrp theory at the zone-boundary X point. Good agreement to numerical band- structure calculations using the nonlocal empirical pseudopotential method with spin-orbit interactions is observed. The model is validated by calculating the bulk electron mobility under general strain with a Monte Carlo technique using the full-band structure and the proposed analytical model for the band structure. Finally, the impact of strain on the inversion-layer mobility of electrons is discussed.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2007.902880