We propose the existence of massless neutrinos that are in line with the Standard Model (unable to account for neutrino mass) but have properties that the Standard Model does not account for: they have a shorter radial path than the photon and have bosonic flavours, which means they are considered bosons rather than fermions. This notion is known as "neutrino temporal oscillation." When compared to solar neutrinos, neutrinos from SN 1987A, and cosmic neutrinos in experiments, the theory provides superior results, explanations, and meaning than the convoluted theory of neutrino oscillations (transformism). Physicists would have attributed the lack of detection of solar neutrinos to the "neutrino oscillation," immediately concluding that the neutrino and the photon follow the identical transverse path. After a "superluminal" odyssey, the "OPERA" experiment, which measured neutrino speed in 2011, yielded neutrino speeds consistent with the speed of light, data that the three existing types of neutrinos couldn't explain, and the final result of a fourth "sterile" neutrino with non-standard interaction. OPERA's findings contradict not only existing theories, but also other measurements. For example, light and neutrinos from the supernova SN1987A arrived at Earth within hours of one other, according to a research from the Kamiokande II experiment in Japan. Despite the fact that measurements of the neutrinos emitted by this supernova clearly show that their speeds differ from light by less than one part in a billion, the reality remains that two sets of data were obtained, with just one being kept to be consistent with the prevailing theory. As a result, the OPERA observation conflicts with the SN1987A finding, which is very speculative. What about the neutrinos and antineutrinos created at the big bang? They were never discovered, and there is no evidence that their speed is different from that of light. Neutrino physics appears to be ill, and belief is changed into proof. The hypothesis of "neutrino temporal oscillation" suggests that massless neutrinos can bypass the three spatial dimensions of space-time that we are familiar with. It represents an open window on a "new physics" with a relationship to physical reality within the Standard Model. The two possibilities appear a priori equally reasonable in reconciling theory and observation. The hypothesis of neutrino temporal oscillation, which assumes a particle's intrinsic mass, provides a more logical and fact-compatible explanation for neutrinos' periodic disappearance.
Author (S) Details
Russell Bagdoo
Saint-Bruno-de-Montarville, Quebec, Canada.
View Book :- https://stm.bookpi.org/NUPSR-V15/article/view/3479
No comments:
Post a Comment