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Noise spectroscopy of traps in silicon nanowire field-effect transistors
By: Li, J.; Pud, S.; Vitusevich, S.; Mantl, S.; Offenhausser, A.; Feste, S.; Petrychuk, M.;
2011 / IEEE / 978-1-4577-0192-4
Description
This item was taken from the IEEE Conference ' Noise spectroscopy of traps in silicon nanowire field-effect transistors ' We investigated noise spectra of strained nanowire field-effect transistors with cross-section of 42�2nm2. Analysis of the flicker noise component behavior enabled us to evaluate the volume trap density at different locations of the nanowire cross-section. The measured value is not higher than that in conventional planar transistors. As the result of the Lorentzian noise component investigation we have estimated that the position of the single active trap in gate oxide dielectric is at a depth of 0.6 nm.
Related Topics
Trap Noise Spectroscopy
Flicker Noise
Volume Trap Density
Planar Transistor
Lorentzian Noise Component
Gate Oxide Dielectric
Depth 0.6 Nm
Silicon
Logic Gates
Dielectrics
Electron Traps
Current Measurement
1f Noise
Trap Density
Silicon Nanowire
Fet
Noise
Si
Semiconductor Device Noise
Nanowires
Flicker Noise
Field Effect Transistors
Elemental Semiconductors
Silicon
Engineering
Nanowire Field-effect Transistor
