State Transition of a Defect Causing Random-Telegraph-Noise Fluctuation in Stress-Induced Leakage Current of Thin SiO2 Films in a Metal–Oxide–Silicon Structure
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Media type:
E-Article
Title:
State Transition of a Defect Causing Random-Telegraph-Noise Fluctuation in Stress-Induced Leakage Current of Thin SiO2 Films in a Metal–Oxide–Silicon Structure
Description:
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Dynamic fluctuation in stress-induced leakage current – called “variable stress-induced leakage current” – in a gate oxide of a metal–oxide–semiconductor structure was investigated. Variable stress-induced leakage current is attributed to random telegraph noise, which is associated with the state-transition of a single defect. To analyze the mechanism of the state-transition, dependence of state-transition probabilities on gate current and on temperature were investigated. These dependences indicate that the state-transition mechanism is a defect-structure transition by charge collision.
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