The greater that the level is, of the scalar amplitude of the correlative Polyakov Action eigenstate upon a discrete quantum of energy -- the greater that the level is, that the scalar amplitude will tend to be -- of the augmentation of the period of the here resultant Schwinger-Indices, that are to thence be formed by the "plucking" activity of the correlative gauge-bosons, upon the directly corresponding second-order light-cone-gauge eigenstates. Under the same genus of a case -- the greater that the level of the scalar amplitude will tend to be of the Polyakov Action eigenstate, the situation will be to where the frequency of the here resultant Schwinger-Indices, that are to as well thence be formed by the same "plucking" activity of the correlative gauge-bosons upon the second-order light-cone-gauge eigenstates, will be of a relatively small scalar amplitude. This will thereby mean, that the slower that the terrestrial-based rate will be, of the velocity of an object, that is to here be moving in relationship to both the existence and the motion of light -- the more time that will appear to exist in its correlative reference frame, -- as is according to its special case of relativity. And, this same relatively slow-moving terrestrial-based phenomenon, will thereby tend to work to bear a slower holonomic substrate-based frequency, and this relatively static object that is moving in this general case -- with a relatively small velocity, will as well tend to bear a relatively neglegiable tense of acting as a De-Broglie-wave, and/or a relatively neglegiable tense of acting as a set of De-Broglie waves.Sam Roach.
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