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Supergranulation Scale Solar Surface Convection Simulations Dali Georgobiani Michigan State University Presenting the results of Bob Stein (MSU) & Åke.

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Presentation on theme: "Supergranulation Scale Solar Surface Convection Simulations Dali Georgobiani Michigan State University Presenting the results of Bob Stein (MSU) & Åke."— Presentation transcript:

1 Supergranulation Scale Solar Surface Convection Simulations Dali Georgobiani Michigan State University Presenting the results of Bob Stein (MSU) & Åke Nordlund (Denmark) with David Benson (Kettering University) progress report

2 Numerical Method Staggered mesh Non-linear, fully compressible, 3D, explicit Spatial differencing: 6 th order centered finite difference Time advancement: 3 rd order Runge-Kutta

3 Size and Resolution Size of the domain: 96 Mm x 96 Mm x 20 Mm 1000 x 1000 x 500 grid points Grid information: dx = dy = 0.1 Mm dz = 0.012–0.075 Mm dt = 0.25 sec (saved every 60 sec)

4 Mean Atmosphere (K) (10 5 dynes/cm 2 ) (10 -7 gm/cm 2 )

5 Sound Speed

6 Vertical Velocity at 2.5 & 8 Mm depth Boxes show domain of earlier simulations at 6, 12, 24 & 48 Mm widths.

7 Vertical momentum at 0, 2, 4, 16 Mm

8 Vertical momentum vs depth

9 Velocity stream lines Courtesy Chris Henze (NASA)

10 Finite time Lyapunov exponent (proxy for vorticity) Courtesy Bryan Green (AMTI/NASA)

11 Available Datasets Website http://sha.stanford.edu/stein_simhttp://sha.stanford.edu/stein_sim (some info) Contact Bob Stein stein@pa.msu.edu (more info)stein@pa.msu.edu Simulated data are being ingested into the new SDO JSOC database Thanks to Rick Bogart for his extensive help with archiving!

12 Archived Data Description 9 variables: horizontal velocities Vx, Vz, vertical velocity Vy, temperature, density, pressure, internal energy, electron density, and  Each snapshot of a variable is stored in a separate file; 9 variables at each time step are combined to be retrieved together Data are in FITS format Duration 511 minutes (180 minutes recorded, WIP) A snapshot of a variable occupies approximately 2 GB of disk space First and third directions are horizontal, second direction is vertical Vertical grid is provided separately (The data will be available for retrieval soon – check with Rick)

13 Another Data Set 4 hour averages, with 2 hour overlap 6 variables: horizontal velocities V x, V z, vertical velocity V y, temperature, density, and sound speed Simultaneous surface velocities Stored in the IDL SAVE format at MSU Work in progress…

14 Units of Variables Length is in 10 8 cm = 1 Mm Time is in 10 2 s Velocities V x, V z, and V y are in 10 km/s Temperature is in K Density is in 10 -7 g/cm 3 Pressure is in 10 5 dynes/cm 2 Internal energy is in 10 5 ergs/cm 3 Electron density is log cm -3

15 These simulations provide an excellent opportunity to validate various techniques, widely used in solar physics and helio- seismology for directly obtaining otherwise inaccessible properties (subsurface flows, structures etc.) On the other hand, these analysis techniques also help to examine how realistic the simulations are

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