Papers Published
- Takeuchi, S; Kim, J; Yamamoto, Y; Hogue, HH, Development of a high-quantum-efficiency single-photon counting system,
Applied Physics Letters, vol. 74 no. 8
(1999),
pp. 1063-1065, AIP Publishing [1.123482], [doi] .
(last updated on 2025/01/02)Abstract:
A high-quantum-efficiency single-photon counting system has been developed. In this system, single photons were detected by a visible light photon counter operated at 6.9 K. The visible light photon counter is a solid state device that makes use of avalanches across a shallow impurity conduction band in silicon. Threefold tight shielding and viewports that worked as infrared blocking filters were used to eliminate the dark count caused by room-temperature radiation. Corrected quantum efficiencies as high as 88.2%±5% (at 694 nm) were observed, which we believe is the highest reported value for a single-photon detector. The dark count increased as the exponential of the quantum efficiency with changing temperature or bias voltage, and was 2.0×104 cps at the highest quantum efficiency. © 1999 American Institute of Physics.