We present a unique modeling capability to understand the global distribution of trace gases and aerosols throughout both the troposphere and stratosphere. It includes the ability to simulate tropospheric chemistry that occurs both in the gas phase as well as on the surfaces of solid particles. We have used this capability to analyze observations from particular flight campaigns as well as averaged observed data. Results show the model to accurately simulate the complex chemistry occurring near the tropopause and throughout the troposphere and stratosphere.
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Lawrence Livermore National Lab., CA (United States)
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California
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We present a unique modeling capability to understand the global distribution of trace gases and aerosols throughout both the troposphere and stratosphere. It includes the ability to simulate tropospheric chemistry that occurs both in the gas phase as well as on the surfaces of solid particles. We have used this capability to analyze observations from particular flight campaigns as well as averaged observed data. Results show the model to accurately simulate the complex chemistry occurring near the tropopause and throughout the troposphere and stratosphere.
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Rotman, D A & Atherton, C.Advances in atmospheric chemistry modeling: the LLNL impact tropospheric/stratospheric chemistry model,
article,
October 7, 1999;
California.
(https://digital.library.unt.edu/ark:/67531/metadc622182/:
accessed April 23, 2024),
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crediting UNT Libraries Government Documents Department.