A study discovered the coherent wave function of electrons and the stability when observed
1 Al-Azhar University affiliated, Faculty of science, Molecular science Department, Cairo, Egypt.
2 National Institute of Health affiliated. Research Department. USA.
3 Virginia Commonwealth University affiliated, Information system Department. USA.
Research Article
World Journal of Advanced Research and Reviews, 2023, 17(03), 876–882
Article DOI: 10.30574/wjarr.2023.17.3.0485
Publication history:
Received on 14 February 2023; revised on 23 March 2023; accepted on 26 March 2023
Abstract:
The wave phase is the origin of creation and precedes the particulate (molecular) phase. The wave and particle are not two figures of the same thing, rather they are heterogeneous and different from each other due to the different sources of each of them. The particulate phase is just generated by impinging of the wave on its target of spatial forces (Higgs field), and the wave phase is considered the extra dimensions or the extended fuzzy end of the particle. Because electrons are forced to move in synchrony, they can produce heat and light. The light would be reflected from the electron forming many synchronized shadows for the same electron at different places that could be misinterpreted by both the instrumental detectors and the person analyzing the results of observations. Therefore, the electron cannot exist in different places, rather the shadows of the same electron give false observational results that produced the false analytic conclusion of “probability and randomness” and thus the term “superposition” is not scientifically consistent or coherent– The energy and momentum of electrons influence their motion through a material, which, in turn, determines its electrical and optical properties. – Using laser pulses, physicists have been able to generate hot electrons that travel faster than the speed of light. Regarding the electrons in the famous double-slit experiment, they are considered accelerated electrons, so their speed is faster than the speed of light. Because the light emitted from electrons and the light of the electron detector (ICCD camera) are electromagnetic waves, the speed of light emitted from electrons is faster than that of the detector. Consequently, the electron detector (ICCD camera) could detect the particle phase of electrons but couldn’t detect or capture the wave phase of electrons, because electromagnetic waves are harder to get a handle on. The result is the failure of observing and detecting the wave phase of electrons. Therefore, the wave function does not collapse.
Keywords:
Electrons; Observer effect; Superposition; Quantum entanglement; Wave phase; Elementary particles
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