Thursday, November 11, 2021
Interactions by photons in a biton
Constituent photons of a biton move in common circular path at the constant linear speed of light. Radial size of a biton is maintained by balancing gravitational attraction between 3D matter-cores of constituent photons by centrifugal actions due to curvature of their common circular path. Variations in photons’ 3D matter-contents make identical changes in both gravitational attraction and centrifugal actions, so that radial size of a biton is maintained.
Interactions between matter-fields of the constituent photons of a biton maintain synchronization of their frequency, relative position in the common circular path and continuous coincidence of disc-planes of 3D matter-cores of photons. Linear speed at the highest possible limit and spin speed proportional to 3D matter-content of the photons are maintained by their inertial pockets (structurally deformed region in universal medium surrounding photon’s 3D matter-core). Inertial pockets, being material structures, have inertial properties. Hence, setting up has certain time delay. Similarly, removal of structural distortions in universal medium along a photon’s path to restore its stability also has certain time delay. This inertial property of universal medium lets certain magnitude of structural deformation to permanently exist around the biton in the shape of circular distortion-field. Circular distortion-field is an electric field. Hence, every photon exhibits a primary electric field about it.
Very high distortion-density within parts of permanent primary electric field setup within circular path of the photons in a biton and associated with each of the photons tends to prevent collision between 3D matter-cores of photons under external influence. However, if the external influence is too large, 3D matter-cores of the photons may unite to form a single photon of twice the 3D matter-content, which may eventually deteriorate into a stable photon of lower frequency.
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