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Control of charge transport mode in the Schottky barrier by δ-doping: Calculation and experiment for Al/GaAs

V. I. ShashkinInstitute for Physics of Microstructures, Russian Academy of Sciences, Nizhny Novgorod, 603950, RussiaA. V. MurelInstitute for Physics of Microstructures, Russian Academy of Sciences, Nizhny Novgorod, 603950, RussiaV. M. Danil’tsevInstitute for Physics of Microstructures, Russian Academy of Sciences, Nizhny Novgorod, 603950, RussiaO. I. KhrykinInstitute for Physics of Microstructures, Russian Academy of Sciences, Nizhny Novgorod, 603950, Russia
2002en
ABI

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The possibility of controlling the effective barrier height in Schottky diodes by introducing a δ-doped layer near the metal-semiconductor contact is considered. A decrease in the effective barrier height is caused by the increased role of carrier tunneling through the barrier. A complete quantum-mechanical numerical simulation of the effect of the δ-layer parameters (concentration and depth) on the current-voltage characteristics of modified diodes was carried out for the Schottky barrier contacts to n-GaAs. The simulation results were found to fit well the experimental characteristics of diodes produced by metal-organic chemical vapor epitaxy. The studies carried out made it possible to choose the optimal δ-layer parameters to produce low-barrier (about 0.2 eV) diodes with a reasonable nonideality factor (n≤1.5). Such structures can be employed to fabricate microwave detector diodes without bias.

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