A superlattice-based resonant cavity-enhanced photodetector operating in the long-wavelength infrared

Letka, Veronica and Craig, Adam and Bainbridge, Andrew and Marshall, Andrew (2020) A superlattice-based resonant cavity-enhanced photodetector operating in the long-wavelength infrared. Applied Physics Letters, 117 (7). ISSN 0003-6951

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Abstract

The design, fabrication, and characterization of a resonant cavity-enhanced photodetector (RCE PD) operating in the long-wavelength infrared regime are demonstrated. The incorporation of the low bandgap InAs/InAs0:70Sb0:30 type-II strained-layer superlattice into the absorber layer of the detector cavity, along with the high-reflectivity (Rm > 0.9) AlAs0:08Sb0:92/GaSb distributed Bragg reflector pairs, results in resonant enhancement at 7.7–7.8 lm, which is a spectral region relevant in applications in sensing of chemical warfare agents and in medical biomarker diagnostics. These resonant wavelength peaks also display a high quality factor in the range of 76–86 and a small temperature coefficient of 0.52 nm K1. An nBn architecture, where an Al0:71Ga0:29As0:08Sb0:92 layer acts as a barrier for majority electrons while minimizing the valence band offset with the absorber, is also incorporated into the cavity in order to improve the electrical properties of the detector. Spectral response measurements yield a peak external quantum efficiency of 14.6% and a peak responsivity of 0.91 A W1 at 77 K and 0.8 V; meanwhile, a dark current density of 2.0 104 A cm2 at 77 K results in a specific detectivity of 3.7 1010 cm Hz1=2 W1, coming close to the theoretical background-limited D of an ideal broadband photovoltaic detector with the superlattice composition as that of the RCE PD.

Item Type:
Journal Article
Journal or Publication Title:
Applied Physics Letters
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/3100/3101
Subjects:
ID Code:
146652
Deposited By:
Deposited On:
19 Aug 2020 08:25
Refereed?:
Yes
Published?:
Published
Last Modified:
28 Sep 2020 01:26