论文信息 - Low-Dark-Current Large-Area Narrow-Band Photodetector Using InGaN/GaN Layers on Sapphire

Low-Dark-Current Large-Area Narrow-Band Photodetector Using InGaN/GaN Layers on Sapphire

A metal–semiconductor–metal structure was fabricated on a 20-nm-thick InGaN layer, and showed a responsivity of over 0.1 A/W to the wavelength of 400 nm at a bias of 1 V. The photocurrent was almost linear to the power of the incident light in three decades. The Schottky interdigital electrodes kept the dark current to less than 100 pA at 10 V despite its large detecting area of 1 mm2. The device showed fast responses on the order of 10 ns to optical impulses from a 407 nm laser diode. Biasing at 1 V or lower is effective in suppressing the sensitivity in the wavelength range shorter than 350 nm when illuminated from the substrate side through a 2-µm-thick GaN layer, resulting in a narrow-band detector for the 400 nm band.

T. Kozawa | J. Ohsawa | O. Fujishima | H. Hayashi | H. Itoh

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