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Modeling the Near-Surface Shear Layer: Diffusion Schemes Studied With CSS Público Deposited

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https://scholar.colorado.edu/concern/conference_proceedings/n583xv63b
Abstract
  • As we approach solar convection simulations that seek to model the interaction of small-scale granulation and supergranulation and even larger scales of convection within the near-surface shear layer (NSSL), the treatment of the boundary conditions and minimization of sub-grid scale diffusive processes become increasingly crucial. We here assess changes in the dynamics and the energy flux balance of the flows established in rotating spherical shell segments that capture much of the NSSL with the Curved Spherical Segment (CSS) code using two different diffusion schemes. The CSS code is a new massively parallel modeling tool capable of simulating 3-D compressible MHD convection with a realistic solar stratification in rotating spherical shell segments.
Creator
Date Issued
  • 2011-01-01
Academic Affiliation
Journal Title
Journal Volume
  • 271.0
File Extent
  • 12070
Subject
Última modificación
  • 2020-01-09
Resource Type
Declaración de derechos
DOI
  • doi:10.1088/1742-6596/271/1/012070
Language
Citation
  • As we approach solar convection simulations that seek to model the interaction of small-scale granulation and supergranulation and even larger scales of convection within the near-surface shear layer (NSSL), the treatment of the boundary conditions and minimization of sub-grid scale diffusive processes become increasingly crucial. We here assess changes in the dynamics and the energy flux balance of the flows established in rotating spherical shell segments that capture much of the NSSL with the Curved Spherical Segment (CSS) code using two different diffusion schemes. The CSS code is a new massively parallel modeling tool capable of simulating 3-D compressible MHD convection with a realistic solar stratification in rotating spherical shell segments.

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