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The full CH Plane for SSX

The full CH Plane for SSX . Figure 1: As for all diagrams here presented, n=5 was used. 15456 SSX points are plotted, corresponding to time series from 3 directions, 16 channels, 8 helicity settings, and ~40 runs per helicity . The SSX CH Plane, first 12 channels only .

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The full CH Plane for SSX

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  1. The full CH Plane for SSX Figure 1: As for all diagrams here presented, n=5 was used. 15456 SSX points are plotted, corresponding to time series from 3 directions, 16 channels, 8 helicity settings, and ~40 runs per helicity.

  2. The SSX CH Plane, first 12 channels only Figure 2: 11592 SSX points are plotted, corresponding to time series from 3 directions, 12 channels, 8 helicity settings, and ~40 runs per helicity.

  3. SSX CH plane helicity dependence unstuffed 0.1 mWb 0.25 mWb 0.5 mWb

  4. SSX CH plane helicity dependence cont. 0.75mWb 1.0 mWb 1.25 mWb 1.5 mWb

  5. SSX CH Plane, averaged over shots (channel 1 of 16) Figure 3: Note that points represent the radial direction, plus signs theta, and x-marks z. The color scale represents helicity.

  6. SSX CH Plane, averaged over shots and directions (channel 1 of 16) Figure 4: The color scale again represents helicity. Note the loop executed in the right side of the plane as helicity is varied. The least entropic helicity setting (pale blue) appears to be 0.5mWb.

  7. SSX CH Plane, averaged over shots and directions (channel 6 of 16) Figure 5: The same looping behavior as in Figure 4 seems to occur for channel 6 data, although the loop is angled a little higher in the plane

  8. SSX CH Plane, averaged over shots and directions (channel 12 of 16) Figure 6: Channel 12 data seems to loop through an even higher complexity region of the CH plane. Once again, 0.5mWb has the lowest entropy point.

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