MIJ-NSR Vol. 5, Art. 9, J.D. Brown et al.

Solar-Blind AlGaN Heterostructure Photodiodes

J.D. Brown, Jizhong Li, P. Srinivasan, J. Matthews, J.F. Schetzina
Department of Physics, North Carolina State University

This article was received on Friday, August 11, 2000 and accepted on Wednesday, September 13, 2000.

Abstract

A backside-illuminated solar-blind UV detector based on an AlGaN p-i-n heterostructure has been successfully synthesized, fabricated and tested. The p-i-n photodiode structure consists of a 1.0 µm n-type Al_0.64Ga_0.36N:Si layer grown by MOVPE onto a low temperature AlN buffer layer on a polished sapphire substrate. On top of this base layer is a 0.2 µm undoped Al_0.47Ga_0.53N active layer and a 0.5 µm p-type Al_0.47Ga_0.53N:Mg top layer. Square mesas of area A = 4 x 10^-4 cm² were obtained by reactive ion etching using BCl₃. The solar-blind photodiode exhibits a very narrow UV spectral responsivity band peaked at 273 nm with a FWHM = 21 nm. Maximum responsivity R = 0.051 A/W at 273 nm, corresponding to an internal quantum efficiency of 27%. R₀A values up to 8 x 10⁷

-cm² were obtained, corresponding to D* = 3.5 x 10¹² cm Hz^1/2W^-1 at 273 nm.

Outline

Results and Discussion

Characterization of Al_xGa_1-xN Layers

Solar-Blind Photodiode Characteristics

Summary and Conclusions

Acknowledgments

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Cite this article as: MRS Internet J. Nitride Semicond. Res. 5, 9(2000).

last updated Thursday, September 14, 2000 6:06:05 PM.