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Achieving climate change absolute accuracy in orbit.

Wielicki, B A*; Young, D F*; Mlynczak, M G*; Thome, K J*; Leroy, S*; Corliss, J*; Anderson, J G*; Ao, C O*; Bantges, R*; Best, F*; Bowman, K*; Brindley, H*; Butler, J J*; Collins, W*; Dykema, J A*; Doelling, D R*; Feldman, D R*; Fox, N P; Huang, X*; Holz, R*; Huang, Y*; Jin, Z*; Jennings, D*; Johnson, D G*; Jucks, K*; Kato, S*; Kirk-Davidoff, D B*; Knuteson, R*; Kopp, G*; Kratz, D P*; Liu, X*; Lukashin, C*; Mannucci, A J*; Phojanamongkolkij, N*; Pilewskie, P*; Ramaswam, V*; Revercomb, Y H*; Rice, J*; Roberts, Y*; Roithmayr, C M*; Rose, F*; Sandford, S*; Shirley, E L*; Smith, W L*; Soden, S B*; Speth, P W*; Sun, W*; Taylor, P C*; Tobin, D*; Xiong, X* (2013) Achieving climate change absolute accuracy in orbit. Bull. Am. Meteorol. Soc., 94 (10). pp. 1519-1539.

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Item Type: Article
Subjects: Optical Radiation and Photonics
Optical Radiation and Photonics > Environment and Climate Change
Identification number/DOI: 10.1175/BAMS-D-12-00149.1
Last Modified: 02 Feb 2018 13:14
URI: http://eprintspublications.npl.co.uk/id/eprint/6041

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