Cargando…
Examination of Tachyonic Particle Phenomena In Yielding A New Grand Unified Field Theory
The author proposes that the EPR experiment is the key to finding the non-relativistic tachyonic particle. The theory proposed here is that 1) EPR supraluminal photon-to-photon communication transfer of information, 2) ultra light speed non-paired photon particles, and 3) the varying constants of li...
Autor principal: | |
---|---|
Lenguaje: | eng |
Publicado: |
2000
|
Materias: | |
Acceso en línea: | http://cds.cern.ch/record/605452 |
Sumario: | The author proposes that the EPR experiment is the key to finding the non-relativistic tachyonic particle. The theory proposed here is that 1) EPR supraluminal photon-to-photon communication transfer of information, 2) ultra light speed non-paired photon particles, and 3) the varying constants of light speed at different points in space, are all due to scalar potentials. It has been theorized that in quantum physics two particles can interact nonlocally because such particles are treated as an indivisible whole. The author theorizes that simple waves can co-exist, in which such waves exhibit a property where total disturbance at any point varies from point-to-point, yet is totally independent of time. However, these simple waves can exist everywhere at everytime. Indeed, the unadulterated Maxwellian scalar potential of a system of forces can be resolved into trains of simple plane waves in any given direction whatsoever, with each simple wave propagating at a constant velocity far greater than the original accepted speed of light constant (c), that can indeed be supraluminal. The wave disturbance at any given point, which can propagate at a constant velocity far greater than the original accepted speed of light constant (c), can be analysed and resolved by spectrum analysis into an infinite number of constituent fields, where each of the constituent fields is of an undulatory character, and where such periodic wave disturbance is independent of time, but is dependent solely on the coordinates (x, y, z) of the point. The simple periodic wave disturbance that are undulatory (variational vector) is a gravitational force in each constituent field that is perpendicular to the wave front, with a velocity that is finite, but extremely supraluminal, and each vorticular phenomena is exactly similar to the undulating or rolling character described for the electromagnetic theory of light propagation itself. Hence, informational velocity can indeed be supraluminal many times over in any given direction (x, y, z), thereby violating Einsteinian causality to the greatest degree. The significance of the scalar potential is that a particle such as the photon or electron can indeed be affected by such electromagnetic scalar potentials, even where all influencing fields vanish in a multiply connected region of space, thereby violating all known relativistic theories of local field interaction. The scalar potential can affect both interference pattern and momentum as well. Thus, in quantum physics, the scalar potentials are the fundamental physical entities ("real") that are effective, while the fields are mathematically derived via differentiation. Such particle effects by potentials, even in the absence of all forces or fields acting upon such particles, constitute compelling evidence of genuine nonlocal effects or rather action-at-a-distance, whereby subatomic particle information is transmitted across both time and space via the aforesaid scalar potentials, at supraluminal velocities. The supraluminal speed of the photon passes right through all matter, thereby making information transmission possible as evidenced by Lijun Wang's non-paired photon experiments where a photon particle passed right through a mirror and still clocked at 300 times the speed of light. The existence of these scalar potentials and their effects on particles (ie. photons, electrons) may very well explain the anomalous phenomena behind the EPR paired photon correlation experiments, the ULS single photon experiments, and the varying constants of light speed at different points in space. |
---|