Journal article
Toward understanding and optimizing Au-hyperdoped Si infrared photodetectors
SQ Lim, CTK Lew, PK Chow, JM Warrender, JS Williams, BC Johnson
APL Materials | AMER INST PHYSICS | Published : 2020
DOI: 10.1063/5.0010083
Abstract
Au-hyperdoped Si absorbs near-infrared (NIR) light and recent efforts have successfully produced Si-based NIR photodetectors based on this property but with low detection efficiencies. Here, we investigate the differences between the optical and photocurrent properties of Au-hyperdoped Si. Although defects introduced during fabrication of these materials may not exhibit significant optical absorption, we show that they can produce a measurable photocurrent under NIR illumination. Our results indicate that the optimal efficiency of impurity-hyperdoped Si materials is yet to be achieved and we discuss these opportunities in light of our results. This work thus represents a step forward in demo..
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Grants
Awarded by U.S. Army
Funding Acknowledgements
The authors acknowledge the US Army (Contract No. FA5209-16-P-0104) and the Australian Nanotechnology Network travel grant for financial support on this project. B.C.J. and C.T.-K.L. acknowledge the Australian Research Council Center of Excellence for Quantum Computation and Communication Technology (Grant No. CE170100012). We acknowledge AFAiiR and ANFF ACT-node for access and technical support to ion beam and fabrication facilities.