MIJ-NSR Vol. 8, Art. 2, Necmi Biyikli et al.

High-Performance Solar-Blind AlGaN Schottky Photodiodes

Necmi Biyikli, Tolga Kartaloglu, Orhan Aytur
Bilkent University Dept. of Electrical and Electronics Engineering

Ibrahim Kimukin, Ekmel Ozbay
Bilkent University Dept. of Physics

This article was received on Friday, January 10, 2003 and accepted on Tuesday, February 25, 2003.

Abstract

High-performance solar-blind AlGaN-based Schottky photodiodes have been demonstrated. The detectors were fabricated on MOCVD-grown AlGaN/GaN hetero-structures using a microwave-compatible fabrication process. Current-voltage, spectral responsivity, noise, and high-speed characteristics of the detectors were measured and analyzed. Dark currents lower than 1 pA at bias voltages as high as 30 V were obtained. True solar-blind detection was achieved with a cut-off wavelength lower than 266 nm. A peak device responsivity of 78 mA/W at 250 nm was measured under 15 V reverse bias. A visible rejection of more than 4 orders of magnitude was observed. The solar-blind photodiodes exhibited noise densities below the measurement setup noise floor of 3x10^-29 A²/Hz around 10 KHz. High-speed measurements at the solar-blind wavelength of 267 nm resulted in 3-dB bandwidths as high as 870 MHz.

Outline

Introduction

Experimental Details

Epitaxial Structure Design

Device Fabrication

Device Characterization

Measurement Results and Discussion

Summary and Conclusions

Acknowledgments

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Cite this article as: MRS Internet J. Nitride Semicond. Res. 8, 2(2003).

last updated Tuesday, February 10, 2004 5:36:00 PM.