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Journals >Acta Photonica Sinica >Volume 49 >Issue 6 >Page 0630001 > Article

Acta Photonica Sinica
Vol. 49, Issue 6, 0630001 (2020)

Experimental Study of Radiometer Based on Spontaneous Parametric Down-conversion Calibration

You-bo HU^1、2, Dong-yang GAO³, Jian-jun LI¹, and Xiao-bing ZHENG^1、*

Author Affiliations

¹Key Laboratory of Optical Calibration and Characterization, Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 230031, China

²University of Sciences and Technology of China, Hefei 230026, China

³Shanghai Aerospace Control Technology Research Institute, Shanghai 201109, China

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DOI: 10.3788/gzxb20204906.0630001 Cite this Article

You-bo HU, Dong-yang GAO, Jian-jun LI, Xiao-bing ZHENG. Experimental Study of Radiometer Based on Spontaneous Parametric Down-conversion Calibration[J]. Acta Photonica Sinica, 2020, 49(6): 0630001 Copy Citation Text

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References

[1] J FISCHER, J ULLRICH. The new system of units. Nature Physics, 12, 4-7(2016).

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[3] A MIGDALL, I P DEGIOVANN, M L RASTELLO. Intercomparison of a correlated-photon-based method to measure detector quantum efficiency. Applied Optics, 41, 2914-2922(2002).

[4] A GHZA, A RAZET, J BASTIE. Detector calibration at INM using a correlated photons source. European Physical Journal Applied Physics, 35, 211-216(2006).

[5] S ODATE, A YOSHIZAWA, D FUKUDA. Quantum efficiency measurements by bidirectional coincidence counting of correlated photon pairs. Optics Letters, 32, 3176-3178(2007).

[6] C J CHUNNILALL, E THEOCHAROUS, G PORROVECCHIO. Low optical power reference detector implemented in the validation of two independent techniques for calibrating photon-counting detectors. Optics Express, 19, 20347-20363(2011).

[8] S Y BAEK, Y H KIM. Spectral properties of entangled photon pairs generated via frequency-degenerate type-I spontaneous parametric down-conversion. Physical Review A, 77, 043807(2008).

[9] F K HSU, C W LAI. Absolute instrument spectral response measurements using angle-resolved parametric fluorescence. Optics Express, 21, 18538-18552(2013).

[11] D N KLYSHKO. Utilization of vacuum fluctuations as an optical brightness standard. Soviet Journal of Quantum Electronics, 7, 591-595(1977).

[12] A MIGDALL, R DATLA, A SERGIENKO. Measuring absolute infrared spectral radiance with correlated visible photons:technique verification and measurement uncertainty. Applied Optics, 37, 3455-3463(1998).

[13] S LEMIEUX, E GIESE, R FUCKLE. A primary radiation standard based on quantum nonlinear optics. Nature Physics, 15, 529-532(2019).

[14] J Y CHEUNG, C J CHUNNILALL, E R WOOLLIAM. The quantum candela:a re-definition of the standard units for optical radiation. Journal of Modern Optics, 54, 373-396(2007).

[15] J C ZWINKELS, E IKONEN, N P FOX. Photometry, radiometry and 'the candela':evolution in the classical and quantum world. Metrologia, 47, R15-R32(2010).

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You-bo HU, Dong-yang GAO, Jian-jun LI, Xiao-bing ZHENG. Experimental Study of Radiometer Based on Spontaneous Parametric Down-conversion Calibration[J]. Acta Photonica Sinica, 2020, 49(6): 0630001

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