Microwave Limb Sounder
Microwave Limb Sounder (MLS) experiments measure naturally-occurring microwave thermal emission from the limb (edge) of Earth's atmosphere to remotely sense vertical profiles of atmospheric gases, temperature, pressure, and cloud ice. The overall objective of these experiments is to provide information that will help improve our understanding of Earth's atmosphere and global change.
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The Aura Microwave Limb Sounder (MLS) team is pleased to announce the release of a new "version 5" MLS dataset.
Reprocessing of the entire 15+ year MLS record with the v5 algorithms is expected to complete in mid-to-late 2021. Until that reprocessing is complete, incoming MLS data will continue to be processed using older v4 algorithms as well as v5, in order to facilitate scientific analyses using a continuous dataset.
A preliminary assessment of the MLS v5 data quality, along with guidelines for appropriate use of the data, is given in the data quality document. Updates to this document are planned in the coming months, when more v5 data will be available for characterization and re-validation and updated estimates of systematic uncertainty are completed.
Data, available from the GES-DISC, can be found through NASA's Earth Data Search tool.
Emili, E. and M.E. Aabaribaoune
Impact of IASI thermal infrared measurements on global ozone reanalyses
Ghysels, M., G. Durry, N. Amarouche, J. Samake, F. Frérot and E. Rivière
A lightweight balloon-borne mid-infrared hygrometer to probe the middle atmosphere: Pico-Light H<sub>2</sub>O. Comparison with Aura-MLS v4 and v5 satellite measurements
McCormack, J., V.L. Harvey, N. Pedatella, D. Koshin, K. Sato, L. Coy, S. Watanabe, C. Randall, F. Sassi and L. Holt
Intercomparison of Middle Atmospheric Meteorological Analyses for the Northern Hemisphere Winter 2009–2010
Vogel, A., J. Ungermann and H. Elbern
Analyzing trace gas filaments in the Ex-UTLS by 4D-variationalassimilation of airborne tomographic retrievals
Aabaribaoune, M.E., E. Emili and V. Guidard
Estimation of the error covariance matrix for IASI radiances and its impact on the assimilation of ozone in a chemistry transport model