The electron is a tiny time lens, Part 2
Published in astro.philica.com
There are two common views of the electron: an electron that is not in motion relative to the observer who then sees only an electric charge field, or an electron in relative motion where the observer sees a temporally smeared-out electric field that displays as an orthogonal magnetic field. Thus, the electric field is due to a relatively motionless electron, while the magnetic field is an electric field in motion that is being temporally smeared out, thus revealing its orthogonal closed-loop nature. Electric and magnetic fields seem to be one and the same thing, the appearances being relative to the observer’s spacial and temporal points of reference.
But, perhaps these features emerge because there already exists a universal electromagnetic field that is sustaining a static electron band structure, with both constituting all of spacetime. The invisible features of this field become visible only when the observer is in relative spacial or temporal motion, thus revealing what lies hidden under the hood.
What may be newsworthy is that this universal spacetime field is being caused and maintained by Planck-sized electromagnetic gyro vortexes that are and have been occupying and creating all of existence since the big bang, resulting in spacetime and its assorted masses and morphologies. Consequently, a cross section of this spacetime is what we see in our surroundings as the face of the emerging future.
The electron can then be seen as being a tiny lens window that amplifies and emanates the continuous future, up and out into our continuous present.
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Information about this Observation
This Observation has not yet been peer-reviewed
Published on Thursday 16th February, 2017 at 21:54:26.
This work is licensed under a Creative Commons Attribution 2.5 License.
The full citation for this Observation is:|
Berman, B. (2017). The electron is a tiny time lens, Part 2. PHILICA.COM Observation number 151.