G. Ghibaudo scite author profile

The operation of 1-3 nm thick SOI MOSFETs, in double-gate (DG) mode and single-gate (SG) mode (for either front or back channel), is systematically analyzed. Strong interface coupling and threshold voltage variation, large influence of substrate depletion underneath the buried oxide, absence of drain current transients, degradation in electron mobility are typical effects in these ultra-thin MOSFETs. The comparison of SG and DG configurations demonstrates the superiority of DG-MOSFETs: ideal subthreshold swing and remarkably improved transconductance (consistently higher than twice the value in SG-MOSFETs). The experimental data and the difference between SG and DG modes is explained by combining classical models with quantum calculations. The key effect in ultimately thin DG-MOSFETs is volume inversion, which primarily leads to an improvement in mobility, whereas the total inversion charge is only marginally modified.

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Revisited parameter extraction methodology for electrical characterization of junctionless transistors

Jeon

Park

Mouis

et al. 2013

Solid-State Electronics

104

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Improved Split C–V Method for Effective Mobility Extraction in sub-0.1-<tex>$muhbox m$</tex>Si MOSFETs

Romanjek

Andrieu

Ernst

et al. 2004

IEEE Electron Device Lett.

155

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G. Ghibaudo

HfO<sub>2</sub>-Based OxRAM Devices as Synapses for Convolutional Neural Networks

Ultimately thin double-gate SOI MOSFETs

Revisited parameter extraction methodology for electrical characterization of junctionless transistors

Improved Split C–V Method for Effective Mobility Extraction in sub-0.1-<tex>$muhbox m$</tex>Si MOSFETs

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G. Ghibaudo

HfO<sub>2</sub>-Based OxRAM Devices as Synapses for Convolutional Neural Networks

Ultimately thin double-gate SOI MOSFETs

Revisited parameter extraction methodology for electrical characterization of junctionless transistors

Improved Split C–V Method for Effective Mobility Extraction in sub-0.1-&lt;tex&gt;$muhbox m$&lt;/tex&gt;Si MOSFETs

Contact Info

Product

Resources

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Improved Split C–V Method for Effective Mobility Extraction in sub-0.1-<tex>$muhbox m$</tex>Si MOSFETs