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July 18, 2005

Solar Convection and Entropy (Image 4)

Using models to understand the convection and magnetic flux near the solar surface, vorticity and turbulence are mainly confined to the intergranular lanes and downdrafts.

Robert Stein, a physics and astronomy professor at Michigan State University, and Aake Nordlund of Copenhagen University Observatory in Denmark, used the National Computational Science Alliance's SGI Origin2000 supercomputer, located at the National Center for Supercomputing Applications (NCSA), to create massive models of portions of the sun to simulate the processes behind the sun's smaller-scale features. Using these models, the team focused on understanding convection and magnetic flux near the solar surface. Stein and Nordlund have used supercomputers to study the nature of the sun for more than 15 years.

Rather than create the simulation through a variety of modeling applications, the team uses a single, integrated code based on the laws of conservation of mass, momentum and energy, as well as the forces of pressure, gravity and the magnetic field. Solving the equations that represent these laws and forces allows the researchers to see the essential physics at work, the radiative cooling at the surface that drives convection and the turbulent motions that generate small-scale, magnetic fields and shuffle them around, for example. On four to six Origin2000 processors, it takes about one day to simulate 30 seconds of time on the sun. Eventually, they hope to simulate about one day on the sun. Using the team's newest simulations, they hope to learn how much small-scale magnetic flux is generated by convection, how larger-scale structures are related to granulation, and how to calibrate sound waves to observe phenomena near the solar surface.

This work was supported by grants from the National Science Foundation (AST 95-21785 and AST 98-19799), NASA and the Danish Research Council. [Image 4 of 4 related images. Back to Image 1.]

Credit: Robert Stein, Physics and Astronomy Department, Michigan State University; and Aake Nordlund, Astronomy Observatory, Copenhagen University, Denmark. Calculations performed at the National Center for Supercomputing Applications, Michigan State University


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