The new sun-sky-lunar Cimel CE318-T multiband photometer-a comprehensive performance evaluation

This paper presents the new photometer CE318-T, able to perform daytime and night-time photometric measurements using the sun and the moon as light source. Therefore, this new device permits a complete cycle of diurnal aerosol and water vapour measurements valuable to enhance atmospheric monitoring...

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Bibliographic Details
Published in:Atmospheric Measurement Techniques
Main Authors: Barreto Velasco, África, Cuevas Agulló, Emilio, Granados-Muñoz, María José, Alados Arboledas, Lucas, Romero Campos, Pedro Miguel, Gröbner, Julian, Kouremeti, Natalia, Almansa Rodríguez, Antonio Fernando, Stone, Tom, Toledano, Carlos, Román, Roberto, Sorokin, Mikhail, Holben, Brent N., Canini, Marius, Yela González, Margarita
Format: Article in Journal/Newspaper
Language:English
Published: European Geosciences Union 2016
Subjects:
Photometer CE318-T
Fotómetros multibanda
Vapor de agua
Aerosoles
Triplets
Aerosol Robotic Network
Online Access:https://hdl.handle.net/20.500.11765/1076
Description
Summary:This paper presents the new photometer CE318-T, able to perform daytime and night-time photometric measurements using the sun and the moon as light source. Therefore, this new device permits a complete cycle of diurnal aerosol and water vapour measurements valuable to enhance atmospheric monitoring to be extracted. In this study we have found significantly higher precision of triplets when comparing the CE318-T master instrument and the Cimel AErosol RObotic NETwork (AERONET) master (CE318-AERONET) triplets as a result of the new CE318-T tracking system. Regarding the instrument calibration, two new methodologies to transfer the calibration from a reference instrument using only daytime measurements (Sun Ratio and Sun-Moon gain factor techniques) are presented and discussed. These methods allow the reduction of the previous complexities inherent to nocturnal calibration. A quantitative estimation of CE318-T AOD uncertainty by means of error propagation theory during daytime revealed AOD uncertainties (uDAOD) for Langley-calibrated instruments similar to the expected values for other reference instruments (0.002–0.009). We have also found uDAOD values similar to the values reported in sun photometry for field instruments ( 0.015). In the case of the night-time period, the CE318-T-estimated standard combined uncertainty (uNAOD) is dependent not only on the calibration technique but also on illumination conditions and the instrumental noise. These values range from 0.011–0.018 for Lunar Langley-calibrated instruments to 0.012–0.021 for instruments calibrated using the Sun Ratio technique. In the case of moon-calibrated instruments using the Sun-Moon gain factor method and suncalibrated using the Langley technique, we found uNAOD ranging from 0.016 to 0.017 (up to 0.019 in 440 nm channel), not dependent on any lunar irradiance model. The AERONET sun photometers at Izaña have been calibrated within the AERONETEurope TNA, supported by the European Community-Research Infrastructure Action under the FP7 ACTRIS grant ...

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