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W1992163673 endingPage "5512" @default.
W1992163673 startingPage "5498" @default.
W1992163673 abstract "The hydrogen collision model of light-induced metastability in hydrogenated amorphous silicon is described in detail. Recombination of photogenerated carriers excites mobile H from Si-H bonds, leaving threefold-coordinated Si dangling-bond defects. When two mobile H atoms collide and associate in a metastable two-H complex, the two dangling bonds from which H was emitted also become metastable. The proposed microscopic mechanism is consistent with electron-spin-resonance experiments. Comprehensive rate equations for the dangling-bond and mobile-H densities are presented; these equations include light-induced creation and annealing. Important regimes are solved analytically and numerically. The model provides explanations for both the ${t}^{1/3}$ time dependence of the rise of defect density during continuous illumination and the ${t}^{1/2}$ time-dependence during intense laser-pulse illumination. Other consequences and predictions of the H collision model are described." @default.
W1992163673 created "2016-06-24" @default.
W1992163673 creator A5068349523 @default.
W1992163673 date "1999-02-15" @default.
W1992163673 modified "2023-10-16" @default.
W1992163673 title "Hydrogen collision model: Quantitative description of metastability in amorphous silicon" @default.
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W1992163673 doi "https://doi.org/10.1103/physrevb.59.5498" @default.
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