Now does anyone have a handle on how many gamma rays are involved in a Gamma Ray Burst. In the early 1990s I actually believed these gamma ray bursts were single solitary gamma rays with huge energy. So sometimes I learn new things over the long haul of time.
Here is what Wikipedia describes as a Gamma Ray Burst: --- quoting Wikipedia --- Gamma-ray bursts (GRBs) are flashes of gamma rays associated with extremely energetic explosions that have been observed in distant galaxies. They are the brightest electromagnetic events known to occur in the universe. Bursts can last from ten milliseconds to several minutes. The initial burst is usually followed by a longer-lived "afterglow" emitted at longer wavelengths (X-ray, ultraviolet, optical, infrared, microwave and radio). Most observed GRBs are believed to consist of a narrow beam of intense radiation released during a supernova as a rapidly rotating, high-mass star collapses.. (snipped) --- end quoting Wikipedia ---
Wikipedia also goes on to describe the range of energy of a gamma ray as that of above 100 keV and less than 10 MeV.
Now it maybe possible to prove the DTW theory by just the math numbers of the overlap of one particle with another. Of the overlap of neutrinos versus photons, and of the overlap of photons versus electrons and the overlap of electrons versus protons.
As for the electron, its rest-mass is 0.5 MeV but in DTW theory it must have another 0.5 MeV involved with electric charge E-. So that a rest-mass electron has at minimum 1 MeV of energy and so the most energetic gamma ray is able to produce about 10 electrons.
Now the most energetic electron is beyond a muon in kinetic energy and a muon rest-mass is about 105 MeV.
Now I have never read any research where they give an upper bound of kinetic energy of a muon. However, I do know the tau-muon is 1776 MeV rest-mass, and the proton is 938 MeV rest-mass, of which two of them are 1876 MeV.
So in Double Transverse Wave theory, can we consider the tau muon as a overlap of the electron particle into the territory of the proton particle? Since the overlap of the gamma ray photon is 10 electrons of rest mass, then the tau-electron is almost 2 protons in overlap.
Google's New-Newsgroups censors AP posts and halted a proper archiving of author, but Drexel's Math Forum does not and my posts?in archive form is seen here: