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This paper investigates the impact of stress, developed during FinFET device fabrication, on electrical characteristics in a 7nm node silicon VLSI technology, focusing on the effects of the active diffusion isolation. A 3D TCAD process model of a FinFET device was created and validated by measured data for the isolation with a Single Diffusion Break and a Double Diffusion Break. The model effectively calculates the stress distributions for PMOS and NMOS transistors under various isolation environments and predicts impacts on Fin FE T performance.

Modeling Stress Effects from Fin Isolation in 7nm FinFET Transistors

Rossoni, Angelo
;Kovacs-Vajna, Zsolt M.;Colalongo, Luigi;
2024-01-01

Abstract

This paper investigates the impact of stress, developed during FinFET device fabrication, on electrical characteristics in a 7nm node silicon VLSI technology, focusing on the effects of the active diffusion isolation. A 3D TCAD process model of a FinFET device was created and validated by measured data for the isolation with a Single Diffusion Break and a Double Diffusion Break. The model effectively calculates the stress distributions for PMOS and NMOS transistors under various isolation environments and predicts impacts on Fin FE T performance.
2024
979-8-3503-5207-8
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11379/615206
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