Abstract
We applied a recent electromagnetic model to design the resonator-quantum well infrared photodetector (R-QWIP). In this design, we used an array of rings as diffractive elements to diffract normal incident light into parallel propagation and used the pixel volume as a resonator to intensify the diffracted light. With a proper pixel size, the detector resonates at certain optical wavelengths and thus yields a high quantum efficiency (QE). To test this detector concept, we fabricated a number of R-QWIPs with different quantum well materials and detector geometries. The experimental result agrees satisfactorily with the prediction, and the highest QE achieved is 71%. © 2013 U.S. Government.
Cite
CITATION STYLE
Choi, K. K., Jhabvala, M. D., Sun, J., Jhabvala, C. A., Waczynski, A., & Olver, K. (2013). Resonator-quantum well infrared photodetectors. Applied Physics Letters, 103(20). https://doi.org/10.1063/1.4831797
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