%0 Journal Article
%T Radiative transfer modeling of atmospheric methane for satellite measurements in the 1.66 micron spectral window
%A Prabhunath Prasad
%A Raghavendra P Singh
%A Shantanu Rastogi
%J Journal of Near Infrared Spectroscopy
%@ 1751-6552
%D 2018
%R 10.1177/0967033518783208
%X Atmospheric methane is the second most important greenhouse gas after carbon dioxide and has significant impact on the atmosphere and climate. Continuous estimation and prediction of atmospheric CH4 concentrations is important for understanding the associated global climate change. To constrain suitable spectral window and detector resolutions for satellite instruments, spectral simulations have been performed considering tropical atmospheric conditions. The study is focused on the 1.66 micron spectral region having CH4 bands that are suitable for its detection and estimation. Both CH4 concentration and spectral resolution are varied to identify optimum spectral resolution limit. The R branch peak at 1.6456£¿¦Ìm is found to be the most sensitive and suitable for CH4 estimation. A concentration retrieval scheme is proposed and it is interpreted that the spectral resolution should not be worse than 0.2£¿nm
%K Remote sensing
%K near infrared
%K optimum spectral resolution
%K CH4 absorption bands
%U https://journals.sagepub.com/doi/full/10.1177/0967033518783208