Researchers:
Taro Yamashita, Kentaro Waki, Shigehito Miki, Robert A. Kirkwood, Robert
H. Hadfield & Hirotaka Terai
Scientific Reports 6, Article number: 35240 (2016)
doi:10.1038/srep35240
Published online:
24 October 2016
Abstract
We present superconducting nanowire single-photon detectors (SSPDs) on
non-periodic dielectric multilayers, which enable us to design a variety of
wavelength dependences of optical absorptance by optimizing the dielectric
multilayer. By adopting a robust simulation to optimize the dielectric
multilayer, we designed three types of SSPDs with target wavelengths of 500 nm,
800 nm, and telecom range respectively. We fabricated SSPDs based on the
optimized designs for 500 and 800 nm, and evaluated the system detection
efficiency at various wavelengths.
The results obtained confirm that the designed SSPDs with non-periodic
dielectric multilayers worked well. This versatile device structure can be
effective for multidisciplinary applications in fields such as the life
sciences and remote sensing that require high efficiency over a precise spectral
range and strong signal rejection at other wavelengths.
See the complete article – Source Link: http://www.nature.com/articles/srep35240
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