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MM Photon Motion Illustration

Discussion of Photon Models and Simulation Capabilities
Introduction I found an interesting paper about a mechanical photon experiment lately. I posted excerpts from the NPA paper, "Testing a Mechanical Behavior of Light Reflection" above at NPA Photon Experiment Results. As it shows, the link for the complete paper is at http://www.worldnpa.org/site/abstract/?abstractid=7098~ Simulation Capabilities One of the authors (Eduardo) expressed interest in testing various photon models, so I'll ask about the possibility of simulating: 1. Miles Mathis' photon model; 2. Charles Chandler's plasma nebula model; 3. Wal Thornhill's galactic filaments z-pinch model; 4. tornado and other weather models; 5. and possibly others.

Mathis' Model of Photon Spin
Their paper used a photon model that somewhat resembles that of Miles Mathis, as well as Prof. Philip Kanarev et al. Below I'm listing some quotations from some of Mathis' online papers (at milesmathis.com ), which I plan to edit in order to help understand his model well. I previously provided Eduardo with links to some of Mathis' photon papers, but I thought it would be best to also try to list all of the most relevant statements from his various papers. If anyone else would like to list any statements by Mathis that may be important too, please feel free to do so. The statements are posted at Mathis Photon Model - "http://qdl.scs-inc.us/?top=10332". I'll try to condense the statements as much as I can and improve the organization of the statements.

Update June 4: I'm adding more of his statements at Photon Models

Mathis' Model of Photon Stacked Spins

  • Basic photon motion is axial spin and forward motion 90o to spin axis.
  • First stacked spin is illustrated above. The photon (red violet) revolves around the center of a spatial sphere (light blue) twice the diameter of the photon, while traveling from left to right in a cycloid wave motion. The side view (in color) shows the wave motion best. Five frames are shown from one wavelength of travel. The Top and Front views help visualize the 3-D motion.
  • I think the second stacked spin makes a similar but longer cycloid wave and the third makes a long helical wave motion.

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