Subject
Management, Monitoring, Policy and Law,Computers in Earth Sciences,Earth-Surface Processes,Global and Planetary Change
Reference51 articles.
1. Anderson, G., Berk, A., Chetwynd, J., Harder, J., Fontenla, J., Shettle, E., Saunders, R., Snell, H., Pilewskie, P., Kindel, B., Gardner, J., Hoke, M., Felde, G., Lockwood, R., Acharya, P., 2007. Using the MODTRAN5 radiative transfer algorithm with NASA satellite data: AIRS and SORCE. SPIE.
2. An Update on SURFRAD—The GCOS Surface Radiation Budget Network for the Continental United States;Augustine;J. Atmos. Ocean. Tech.,2005
3. Berk, A., Anderson, G.P., 2008. Impact of MODTRAN 5.1 on Atmospheric Compensation, IGARSS 2008 - 2008 IEEE International Geoscience and Remote Sensing Symposium, pp. III-127 - III-129.
4. Berk, A., Anderson, G.P., Acharya, P.K., Bernstein, L.S., Muratov, L., Lee, J., Fox, M.J., Adler-Golden, S.M., Chetwynd, J.J.H., Hoke, M.L., Lockwood, R.B., Gardner, J.A., Cooley, T.W., Lewis, P.E., 2004. MODTRAN5: a reformulated atmospheric band model with auxiliary species and practical multiple scattering options, pp. 341-347.
5. Comparison of TOA and BOA LW Radiation Fluxes Inferred From Ground-Based Sensors, A-Train Satellite Observations and ERA Reanalyzes at the High Arctic Station Eureka Over the 2002–2020 Period;Blanchard;J. Geophys. Res. Atmos.,2021