Linearization of the interaction principle: Analytic Jacobians in the “Radiant” model |
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Authors: | R.J.D. Spurr M.J. Christi |
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Affiliation: | a RT Solutions Inc., 9 Channing Street, Cambridge, MA 02138, USA b Department of Atmospheric Science, Colorado State University, Fort Collins, Colorado, USA |
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Abstract: | In this paper we present a new linearization of the Radiant radiative transfer model. Radiant uses discrete ordinates for solving the radiative transfer equation in a multiply-scattering anisotropic medium with solar and thermal sources, but employs the adding method (interaction principle) for the stacking of reflection and transmission matrices in a multilayer atmosphere. For the linearization, we show that the entire radiation field is analytically differentiable with respect to any surface or atmospheric parameter for which we require Jacobians (derivatives of the radiance field). Derivatives of the discrete ordinate solutions are based on existing methods developed for the LIDORT radiative transfer models. Linearization of the interaction principle is completely new and constitutes the major theme of the paper. We discuss the application of the Radiant model and its linearization in the Level 2 algorithm for the retrieval of columns of carbon dioxide as the main target of the Orbiting Carbon Observatory (OCO) mission. |
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Keywords: | Radiative transfer Discrete ordinates Doubling-adding Pseudo-spherical Linearization OCO mission Carbon dioxide retrieval |
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