Quantum-mechanical effects on the threshold voltage of undoped double-gate MOSFETs
Quantum-mechanical (QM), or carrier energy-quantization, effects on the subthreshold characteristics, including the threshold voltage (V/sub t/), of generic undoped double-gate (DG) CMOS devices with ultrathin (Si) bodies (UTBs) are physically modeled. The analytic model, with dependences on the UTB...
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Veröffentlicht in: | IEEE electron device letters 2005-08, Vol.26 (8), p.579-582 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Quantum-mechanical (QM), or carrier energy-quantization, effects on the subthreshold characteristics, including the threshold voltage (V/sub t/), of generic undoped double-gate (DG) CMOS devices with ultrathin (Si) bodies (UTBs) are physically modeled. The analytic model, with dependences on the UTB thickness (t/sub Si/), the transverse electric field, and the UTB surface orientation, shows how V/sub t/ is increased, and reveals that 1) the subthreshold carrier population in higher-energy subbands is significant, 2) the QM effects in DG devices with {110}-Si surfaces, common in FinFETs, are comparable to those for {100}-Si surfaces for t/sub Si/>/spl sim/4 nm, 3) the QM effects can increase the gate swing, and (iv) the QM effects, especially for t/sub Si/ |
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ISSN: | 0741-3106 1558-0563 |
DOI: | 10.1109/LED.2005.852741 |