Simple transfer calibration method for a Cimel Sun–Moon photometer: calculating lunar calibration coefficients from Sun calibration constants

Zhengqiang Li; Kaitao Li; Donghui Li; Jiuchun Yang; Hua Xu; Philippe Goloub; Stephane Victori

doi:10.1364/AO.55.007624

Applied Optics
Vol. 55,
Issue 27,
pp. 7624-7630
(2016)
•https://doi.org/10.1364/AO.55.007624

Simple transfer calibration method for a Cimel Sun–Moon photometer: calculating lunar calibration coefficients from Sun calibration constants

Zhengqiang Li, Kaitao Li, Donghui Li, Jiuchun Yang, Hua Xu, Philippe Goloub, and Stephane Victori

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Zhengqiang Li, Kaitao Li, Donghui Li, Jiuchun Yang, Hua Xu, Philippe Goloub, and Stephane Victori, "Simple transfer calibration method for a Cimel Sun–Moon photometer: calculating lunar calibration coefficients from Sun calibration constants," Appl. Opt. 55, 7624-7630 (2016)

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- Instrumentation, Measurement, and Metrology
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About this Article
History
- Original Manuscript: June 9, 2016
- Revised Manuscript: August 22, 2016
- Manuscript Accepted: August 22, 2016
- Published: September 20, 2016

Abstract

The Cimel new technologies allow both daytime and nighttime aerosol optical depth (AOD) measurements. Although the daytime AOD calibration protocols are well established, accurate and simple nighttime calibration is still a challenging task. Standard lunar-Langley and intercomparison calibration methods both require specific conditions in terms of atmospheric stability and site condition. Additionally, the lunar irradiance model also has some known limits on its uncertainty. This paper presents a simple calibration method that transfers the direct-Sun calibration constant, $V_{0, Sun}$ , to the lunar irradiance calibration coefficient, $C_{Moon}$ . Our approach is a pure calculation method, independent of site limits, e.g., Moon phase. The method is also not affected by the lunar irradiance model limitations, which is the largest error source of traditional calibration methods. Besides, this new transfer calibration approach is easy to use in the field since $C_{Moon}$ can be obtained directly once $V_{0, Sun}$ is known. Error analysis suggests that the average uncertainty of $C_{Moon}$ over the 440–1640 nm bands obtained with the transfer method is 2.4%–2.8%, depending on the $V_{0, Sun}$ approach (Langley or intercomparison), which is comparable with that of lunar-Langley approach, theoretically. In this paper, the Sun–Moon transfer and the Langley methods are compared based on site measurements in Beijing, and the day–night measurement continuity and performance are analyzed.

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Error Source	Uncertainty (%)
$Δ k / k$	0.3
$Δ E_{0, Sun} / E_{0, Sun}$	2.3
$Δ V_{0, Sun} / V_{0, Sun}$ (Langley/field intercomparison)	0.5/1.5
Others (e.g., dark current)	0.5
Total	2.4/2.8

Error Source	Uncertainty (%)
$Δ V_{t, Moon} / V_{t, Moon}$	1.0
$Δ E_{0, t, Moon} / E_{0, t, Moon}$	2.5
Others (e.g., $Δ m$ , dark current)	0.5
Total	2.7

Band (nm)	1020	1640	870	675	440	500
$V_{Moon} / V_{aur}$	32.20 (0.01)	32.00 (0.01)	32.12 (0.01)	32.11 (0.02)	32.03 (0.03)	32.08 (0.04)
$V_{aur} / V_{Sun}$	127.4 (0.04)	128.1 (0.06)	127.4 (0.04)	127.9 (0.05)	–	–
$k = (V_{Moon} / V_{aur}) \times (V_{aur} / V_{Sun})$	4104	4102	4093	4108	–	–
Diff. (%) from theoretical value (4096)	0.19	0.14	−0.07	0.29	–	–

Band (nm)	1020	1640	870	675	440	500
$V_{0, Sum}$ (ave.)	573011.76	982914.84	871673.67	1081095.38	845359.81	1003517.07
CV (%) of $V_{0, Sun}$	0.33	0.08	0.10	0.09	0.26	0.20
$E_{0, Sun}$ ( $w / m^{2} / nm$ )	0.71428	0.23716	0.95763	1.51184	1.82132	1.92307
$C_{Moon}^{'}$ (transfer)	3285904923.7	16975962154.8	3728345344.5	2928991610.5	1901145203.3	2137418772.4
$C_{Moon}$ (Langley)	3244055235.4	17555093979.7	3706745111.3	2895692138.3	1941933571.5	2216532777.5
$\ln C_{Moon} - \ln {C^{'}}_{Moon}$	−0.013	0.034	−0.006	−0.011	0.021	0.036
Diff. (%) in $C_{Moon}$	−1.29	3.30	−0.58	−1.15	2.10	3.57

Error Source	Uncertainty (%)
$Δ k / k$	0.3
$Δ E_{0, Sun} / E_{0, Sun}$	2.3
$Δ V_{0, Sun} / V_{0, Sun}$ (Langley/field intercomparison)	0.5/1.5
Others (e.g., dark current)	0.5
Total	2.4/2.8

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