A selection of JavaScript movies

JavaScript 3.65 MB Frame Size: 320 x 240 #Frames: 56

From 26 May 1998 through 8 June 1998, TRACE observed an active region as it crossed the disk. This movie is an excerpt from a 17500 frame set covering that entire period (2 fragments are shown below). The field of view is 640x480 pixels of 0.5 arcsec. each, shown 2x2 binned in this movie.

JavaScript 4.44 MB Frame Size: 320 x 240 #Frames: 77

This is a small fragment of the two-week continuous movie, showing rapid loop evolution near the solar limb in 171A. The field of view is 640x480 pixels of 0.5 arcsec. each, shown 2x2 binned in this movie.

JavaScript 2.32 MB Frame Size: 320 x 240 #Frames: 36

Another fragment of the two-week continuous movie. This segment shows a compact brightening, that lasts for only a few frames. Some areas become some 300 times brighter than the average intensity, causing the diffraction pattern of the support grid of the front filters to show up as diagonal crosses. The field of view is 640x480 pixels of 0.5 arcsec. each, shown 2x2 binned in this movie.

JavaScript 2.59 MB Frame Size: 320 x 240 #Frames: 40

During the EIT shutterless campaign, TRACE observed the region in 171A with an average cadence of about 27 seconds. This fragment of the 2-hr movie shows a transient brightening, associated with a mass injection into the coronal loop system. The material follows the loops (that show oscillations as a result of the stresses) from one footpoint to another. Note the sudden brightening of the material after it has made it into the corona. The field of view is 640x480 pixels of 0.5 arcsec. each, shown 2x2 binned in this movie.

JavaScript 4.42 MB Frame Size: 320 x 240 #Frames: 61

This sequence of a moderate filament near the limb, taken in 171A, shows the dynamic nature of filaments, with parcels of matter being thrown up in opposite directions, showing up in absorption. The field of view is 640x480 pixels of 0.5 arcsec. each, shown 2x2 binned in this movie.

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Image
(Lockheed Martin Missile & Space)
(The Lockheed Martin
Solar and Astrophysics Labs)
  Dr. Neal Hurlburt
email: hurlburt@lmsal.com 

 

Modified 10-Jun-98 04:09

ize= -2>Modified 10-Jun-98 04:09

04:09