This paper investigates the effect of spatially localized versus uniform strain on the performance of n-type InAs nanowire Tunnel FETs. To this purpose we make use of a simulator based on the NEGF formalism and employing an eight-band k·p Hamiltonian, describing the strain implicitly as a modification of the band-structure. Our results indicate that, when the uniform strain degrades the subthreshold slope because of an increased band-to-band-tunneling at the drain, a localized strain at the source side can achieve a better tradeoff between on-current and subthreshold slope than a uniform strain configuration.
Investigation of localized versus uniform strain as a performance booster in InAs Tunnel-FETs
CONZATTI, Francesco;M. G. Pala;ESSENI, David;
2012-01-01
Abstract
This paper investigates the effect of spatially localized versus uniform strain on the performance of n-type InAs nanowire Tunnel FETs. To this purpose we make use of a simulator based on the NEGF formalism and employing an eight-band k·p Hamiltonian, describing the strain implicitly as a modification of the band-structure. Our results indicate that, when the uniform strain degrades the subthreshold slope because of an increased band-to-band-tunneling at the drain, a localized strain at the source side can achieve a better tradeoff between on-current and subthreshold slope than a uniform strain configuration.File in questo prodotto:
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