Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)

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Zeitschriftentitel:	Geoscientific Model Development
Personen und Körperschaften:	Telford, P. J., Abraham, N. L., Archibald, A. T., Braesicke, P., Dalvi, M., Morgenstern, O., O'Connor, F. M., Richards, N. A. D., Pyle, J. A.
In:	Geoscientific Model Development, 6, 2013, 1, S. 161-177
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	Copernicus GmbH
Schlagwörter:	Polymers and Plastics General Environmental Science

author_facet	Telford, P. J. Abraham, N. L. Archibald, A. T. Braesicke, P. Dalvi, M. Morgenstern, O. O'Connor, F. M. Richards, N. A. D. Pyle, J. A. Telford, P. J. Abraham, N. L. Archibald, A. T. Braesicke, P. Dalvi, M. Morgenstern, O. O'Connor, F. M. Richards, N. A. D. Pyle, J. A.
author	Telford, P. J. Abraham, N. L. Archibald, A. T. Braesicke, P. Dalvi, M. Morgenstern, O. O'Connor, F. M. Richards, N. A. D. Pyle, J. A.
spellingShingle	Telford, P. J. Abraham, N. L. Archibald, A. T. Braesicke, P. Dalvi, M. Morgenstern, O. O'Connor, F. M. Richards, N. A. D. Pyle, J. A. Geoscientific Model Development Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3) Polymers and Plastics General Environmental Science
author_sort	telford, p. j.
spelling	Telford, P. J. Abraham, N. L. Archibald, A. T. Braesicke, P. Dalvi, M. Morgenstern, O. O'Connor, F. M. Richards, N. A. D. Pyle, J. A. 1991-9603 Copernicus GmbH Polymers and Plastics General Environmental Science http://dx.doi.org/10.5194/gmd-6-161-2013 <jats:p>Abstract. Atmospheric chemistry is driven by photolytic reactions, making their modelling a crucial component of atmospheric models. We describe the implementation and validation of Fast-JX, a state of the art model of interactive photolysis, into the MetUM chemistry-climate model. This allows for interactive photolysis rates to be calculated in the troposphere and augments the calculation of the rates in the stratosphere by accounting for clouds and aerosols in addition to ozone. In order to demonstrate the effectiveness of this new photolysis scheme we employ new methods of validating the model, including techniques for sampling the model to compare to flight track and satellite data. </jats:p> Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3) Geoscientific Model Development
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title	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_unstemmed	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_full	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_fullStr	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_full_unstemmed	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_short	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_sort	implementation of the fast-jx photolysis scheme (v6.4) into the ukca component of the metum chemistry-climate model (v7.3)
topic	Polymers and Plastics General Environmental Science
url	http://dx.doi.org/10.5194/gmd-6-161-2013
publishDate	2013
physical	161-177
description	<jats:p>Abstract. Atmospheric chemistry is driven by photolytic reactions, making their modelling a crucial component of atmospheric models. We describe the implementation and validation of Fast-JX, a state of the art model of interactive photolysis, into the MetUM chemistry-climate model. This allows for interactive photolysis rates to be calculated in the troposphere and augments the calculation of the rates in the stratosphere by accounting for clouds and aerosols in addition to ozone. In order to demonstrate the effectiveness of this new photolysis scheme we employ new methods of validating the model, including techniques for sampling the model to compare to flight track and satellite data. </jats:p>
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author	Telford, P. J., Abraham, N. L., Archibald, A. T., Braesicke, P., Dalvi, M., Morgenstern, O., O'Connor, F. M., Richards, N. A. D., Pyle, J. A.
author_facet	Telford, P. J., Abraham, N. L., Archibald, A. T., Braesicke, P., Dalvi, M., Morgenstern, O., O'Connor, F. M., Richards, N. A. D., Pyle, J. A., Telford, P. J., Abraham, N. L., Archibald, A. T., Braesicke, P., Dalvi, M., Morgenstern, O., O'Connor, F. M., Richards, N. A. D., Pyle, J. A.
author_sort	telford, p. j.
container_issue	1
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container_title	Geoscientific Model Development
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description	<jats:p>Abstract. Atmospheric chemistry is driven by photolytic reactions, making their modelling a crucial component of atmospheric models. We describe the implementation and validation of Fast-JX, a state of the art model of interactive photolysis, into the MetUM chemistry-climate model. This allows for interactive photolysis rates to be calculated in the troposphere and augments the calculation of the rates in the stratosphere by accounting for clouds and aerosols in addition to ozone. In order to demonstrate the effectiveness of this new photolysis scheme we employ new methods of validating the model, including techniques for sampling the model to compare to flight track and satellite data. </jats:p>
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institution	DE-Rs1, DE-Pl11, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15
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spelling	Telford, P. J. Abraham, N. L. Archibald, A. T. Braesicke, P. Dalvi, M. Morgenstern, O. O'Connor, F. M. Richards, N. A. D. Pyle, J. A. 1991-9603 Copernicus GmbH Polymers and Plastics General Environmental Science http://dx.doi.org/10.5194/gmd-6-161-2013 <jats:p>Abstract. Atmospheric chemistry is driven by photolytic reactions, making their modelling a crucial component of atmospheric models. We describe the implementation and validation of Fast-JX, a state of the art model of interactive photolysis, into the MetUM chemistry-climate model. This allows for interactive photolysis rates to be calculated in the troposphere and augments the calculation of the rates in the stratosphere by accounting for clouds and aerosols in addition to ozone. In order to demonstrate the effectiveness of this new photolysis scheme we employ new methods of validating the model, including techniques for sampling the model to compare to flight track and satellite data. </jats:p> Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3) Geoscientific Model Development
spellingShingle	Telford, P. J., Abraham, N. L., Archibald, A. T., Braesicke, P., Dalvi, M., Morgenstern, O., O'Connor, F. M., Richards, N. A. D., Pyle, J. A., Geoscientific Model Development, Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3), Polymers and Plastics, General Environmental Science
title	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_full	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_fullStr	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_full_unstemmed	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_short	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
title_sort	implementation of the fast-jx photolysis scheme (v6.4) into the ukca component of the metum chemistry-climate model (v7.3)
title_unstemmed	Implementation of the Fast-JX Photolysis scheme (v6.4) into the UKCA component of the MetUM chemistry-climate model (v7.3)
topic	Polymers and Plastics, General Environmental Science
url	http://dx.doi.org/10.5194/gmd-6-161-2013