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Thermal-Equilibrium Defect Processes in Hydrogenated Amorphous Silicon
149
Citations
14
References
1986
Year
Defect ToleranceThermal-equilibrium Defect ProcessesThermal-equilibrium Defect DensityPhysicsEngineeringApplied PhysicsThermal EquilibriumDefect FormationDefect DensityAmorphous SolidSilicon On InsulatorMicroelectronicsPhotovoltaics
The first experimental evidence for a thermal-equilibrium defect density in undoped hydrogenated amorphous silicon, a metastable material, is presented. The defect density is in thermal equilibrium at temperatures above 200\ifmmode^\circ\else\textdegree\fi{}C; the defects measured at room temperature are largely those frozen in during cooling from the equilibrium regime. Rapid quenching reversibly increases defect density. The defect density can be reversibly decreased by shunting of the defect-generation process during cooling. This latter technique has important implications for $a$-Si:H-based solar cells.
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