Efficient single-photon counting at 1.55μm by intracavity frequency upconversion in a unidirectional ring laser
Haifeng PanHuafang DongHeping ZengWei Lü
Abstract
A single-photon signal at 1.55μm was converted to its visible replica by sum-frequency mixing with a strong intracavity pump of a unidirectional ring laser at 1.06μm in a periodically poled lithium niobate (PPLN) crystal. In the ring laser configuration, standing-wave photorefractive effects in the PPLN crystal could be suppressed and consequently, the spectral bandwidth of the intracavity pump could be controlled for excellent quasi-phase-matching. A conversion efficiency of 96% was demonstrated, and the corresponding background counts were less than 6.0×105s−1. The single-photon upconversion was used for efficient single-photon counting at 1.55μm with long-term stability.
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