Light is the most well-known form of electromagnetic energy. What is normally thought of as light, is what is known of as visible light. The basis of visible light, is known of as white light. Electromagnetic energy is energy that fluctuates, in both its electric field and in its magnetic field. Depending upon how you look at it, electromagnetic energy may be viewed of as an energy, electromagnetic energy may be viewed of as a wave, and/or, electromagnetic energy may be viewed of as a particle. Electromagnetic energy is a kinetic form of energy. Electromagnetic energy is propagated in waves. The individual particles of electromagnetic energy, exist in tiny little packets that are known of as photons. Photons are discrete particles. A photon consists of, as a discrete form of energy -- a topological substrate, that consists of individually taken bosonic superstrings, as their basis for that discrete energy permittivity that works to make these up. As usual, such so-eluded-to discrete packets of closed-loops -- that work to help to form the discrete energy permittivity that comprises these particle-like phenomenology that are photons, when individually taken -- work to bear a counterstring at its immediate relative forward holomorphic side, as well as a Fadeev-Popov-Trace eigenstate at is immediate relative reverse holomorphic side. As with other superstrings of discrete energy permittiivity -- the so-stated superstring works to form the Laplacian-founded basis of the particle-based nature of its discrete energy permittivity, the correlative counterstring works to form the Laplacian-founded basis of the wave-based nature of its discrete energy permittivity, the so-stated Fadeev-Popov-Trace eigenstate works to form the Laplacian-founded basis of the particle-based nature of its discrete energy impedance, and, the so-stated first-ordered light-cone-gauge eigenstate works to form the Laplacian-founded basis of the wave-based nature of its discrete energy impedance.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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