Solar Wave Theory Group (SWAT)

Simulations

Period = 30 s, Amplitude = 500 m/s, Radius of tube = 100 km, B = 1000 G

Movie 1 (driver)

Movie 2 (zoom, driver)

Movie 3 (zoom, thick)

Movie 4 (zoom, 1 trajectory)

Period = 120 s, Amplitude = 200 m/s, Radius of tube = 100 km, B=1000 G

Movie 1 (full, driver)

Movie 2 (full, driver, thick)

Movie 3 (magnetic slice, cartesian-cylindric)

Movie 4 (velocity-magnetic slice, cylindric-cylindric)

Movie 5 (velocity-magnetic slice, cartesian-cartesian)

Movie 6 (zoom)

Movie 7 (zoom, driver)

Movie 8 (zoom, thick)

Movie 9 (zoom, 1 trajectory)

Movie 10 (zoom, 1 trajectory, projection)

Movie 11 (zoom, 3 trajectories)

Movie 12 (zoom, 3 trajectories, projection)

Movie 13 (zoom, all trajectories)

Visualisation with Vapor, Period = 120 s, Amplitude = 200 m/s, Radius of tube = 100 km, B = 1000 G

Movie 1 (vapor 1)

Movie 2 (vapor 2)

Movie 3 (vapor 3)

One period, Amplitude = 200 m/s, Radius of tube = 100 km, B = 1000 G

Movie 1 (4 trajectories)

Movie 2 (4 trajectory projection)

Movie 3 (xy cut at 0.9 Mm of Vz)

Multidriver, period = 120, 180, 240, 300, 350 s, Amplitude = 200 m/s, Radius of tube = 100 km, B = 1000 G.

Realistic solar atmosphere (line profiles constructed from the model are identical to the line profiles obtained from observational data)

Movie 1 (3 trajectories)

Movie 2 (3 trajectories)

Movie 3 (All variables)

Movie 4 (gamma)

Test results

Validation of MHD Code for Gravitationally Stratified Media on Graphical Processing Units.

report