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Spaceborne Middle‐ and Far‐Infrared Observations Improving Nighttime Ice Cloud Property Retrievals

Masanori Saito, Ping Yang, Xianglei Huang, Helen Brindley, M. G. Mlynczak, Brian H. Kahn

2020Geophysical Research Letters25 citationsDOIOpen Access PDF

Abstract

Abstract Two upcoming missions are scheduled to provide novel spaceborne observations of upwelling far‐infrared spectra. In this study, the accuracy of ice cloud property retrievals using spaceborne middle‐to‐far‐infrared (MIR‐FIR) measurements is examined toward a better understanding of retrieval biases and uncertainties. Theoretical sensitivity studies demonstrate that the MIR‐FIR spectra are sensitive to ice cloud properties, thereby providing a robust means for retrieving cloud properties under nighttime conditions. However, the temperature dependence of the ice refractive index and relevant ice particle shape models need to be incorporated into the retrieval procedure to avoid systematic biases in inferring cloud optical thickness and effective particle radius. Furthermore, prior information of subpixel cloud fractions is essential to mitigation of substantial systematic retrieval biases due to inconsistent subpixel cloud fractions.

Topics & Concepts

Subpixel renderingCloud computingEffective radiusIce cloudRemote sensingEnvironmental scienceCloud fractionInfraredMeteorologyComputer scienceGeologyOpticsPhysicsCloud coverAstronomyArtificial intelligenceGalaxyPixelOperating systemAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsAtmospheric Ozone and Climate