Band-Offset Engineering for GeSn-SiGeSn Hetero Tunnel FETs and the Role of Strain
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Date
2015-05Type
- Journal Article
ETH Bibliography
yes
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Abstract
In this paper a simulation study of the effect of conduction and valence band offsets on the subthreshold swing (SS) of a double-gate tunnel field-effect transistor (TFET) with gate-overlapped source is presented. The simulations show that if the pn-junction and the hetero-junction coincide, the band offsets can significantly improve the SS by suppressing the so-called point tunneling at the pn-junction. It turns out that the performance of an n-channel TFET is determined by the direct conduction band offset whereas that of a p-channel TFET is mainly effected by the energy difference between the light hole bands of the two materials. Thus, the performance of the hetero-junction TFET can be improved by selecting material systems with high conduction or valence band offsets. The misalignment between the pn-junction and the hetero-junction is shown to degrade the SS. The above-described band-offset engineering has been applied to the GeSn/SiGeSn hetero-structure system with and without strain. Simulations of GeSn/SiGeSn hetero-TFETs with band-to-band-tunneling parameters determined from pseudopotential calculations show that compressive strain in GeSn widens the design space for TFET application while tensile strain reduces it. Show more
Publication status
publishedExternal links
Journal / series
IEEE Journal of the Electron Device SocietyVolume
Pages / Article No.
Publisher
IEEESubject
Tunnel FETs; GeSn-SiGeSn hetero structures; band offset optimizationOrganisational unit
03925 - Luisier, Mathieu / Luisier, Mathieu
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ETH Bibliography
yes
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