dorsal/arxiv
View SchemaInformation Field and Superluminal Communication
| Authors | V. P. Oleinik |
|---|---|
| Categories | |
| ArXiv ID | physics/0306073 |
| URL | https://arxiv.org/abs/physics/0306073 |
Abstract
The field of scalar and vector potentials in electrodynamics is shown to represent an informational field capable of superluminally transmitting a signal (information) with no energy and momentum transfer. This conclusion strictly follows from Maxwell's equations for electromagnetic field interacting with electric charges and currents in vacuum, without resort to any additional hypotheses. That superluminal communication is possible is seen from the fact that the own field, generated by particles and inseparable from them, transforms the environment into a special physical medium which is capable to instantaneously transfer a signal (information) about any changes, happening to a particle in the region of its basic localization, to arbitrarily large distances. The phenomenon of superluminal communication is caused by the non-local connection of scalar and vector potentials with the electric and magnetic field strengths. The basis for the mechanism of superluminal communication considered in this work is the Aharonov-Bohm effect indicative of the field of electromagnetic potentials as a real physical field, which directly influences the behaviour of electron waves. The conclusion is made that in quantum systems superluminal signals occur constantly, in any quantum processes. The occurrence of superluminal signals is due to the space-time symmetry breaking of a special kind, consisting in that the equations for potentials do not possess relativistic invariance though Maxwell's equations for the field strengths are Lorentz-invariant. The results presented do not contradict the physical principles underlying special relativity and confirm the fundamental conclusion, made for the first time by de Broglie, that gauge invariance is not an absolute law in physics
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"abstract": "The field of scalar and vector potentials in electrodynamics is shown to\nrepresent an informational field capable of superluminally transmitting a\nsignal (information) with no energy and momentum transfer. This conclusion\nstrictly follows from Maxwell\u0027s equations for electromagnetic field interacting\nwith electric charges and currents in vacuum, without resort to any additional\nhypotheses. That superluminal communication is possible is seen from the fact\nthat the own field, generated by particles and inseparable from them,\ntransforms the environment into a special physical medium which is capable to\ninstantaneously transfer a signal (information) about any changes, happening to\na particle in the region of its basic localization, to arbitrarily large\ndistances. The phenomenon of superluminal communication is caused by the\nnon-local connection of scalar and vector potentials with the electric and\nmagnetic field strengths. The basis for the mechanism of superluminal\ncommunication considered in this work is the Aharonov-Bohm effect indicative of\nthe field of electromagnetic potentials as a real physical field, which\ndirectly influences the behaviour of electron waves. The conclusion is made\nthat in quantum systems superluminal signals occur constantly, in any quantum\nprocesses. The occurrence of superluminal signals is due to the space-time\nsymmetry breaking of a special kind, consisting in that the equations for\npotentials do not possess relativistic invariance though Maxwell\u0027s equations\nfor the field strengths are Lorentz-invariant. The results presented do not\ncontradict the physical principles underlying special relativity and confirm\nthe fundamental conclusion, made for the first time by de Broglie, that gauge\ninvariance is not an absolute law in physics",
"arxiv_id": "physics/0306073",
"authors": [
"V. P. Oleinik"
],
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"title": "Information Field and Superluminal Communication",
"url": "https://arxiv.org/abs/physics/0306073"
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