Abstract
Precision Tevatron and Linear Hadron Collider measurements at Fermilab and CERN have revealed the numerically accurate mass equality W + Z = t. This equality between two gauge bosons (gb) and the top quark t is only valid if reinterpreted as an energy equality, where E = mc 2, since energy is a shared property of particles and quarks. The experimental data indicate that the LHC particle excitation energy is quantized in the form of gauge boson energy packets E gb , which are created by factor-of-137 proton-quark energy increases denoted as α-boosts, where α ~ 1/137 is the fine structure constant. These α-boosts occur during the rare head-on quark–quark collisions in the proton beams. The α-boost energy quantization mechanism also occurs in low-energy electron–positron boson and fermion particle production channels, where it generates E b and E f energy packets. These α-boost energy channels link together coherently, as demonstrated by the accurate top quark energy equation E top = (18/α2) E electron. Particle production energy equations are derived which combine to create an overall energy pattern that accurately reproduces the energies of the (u,d), s, c, b, t fermion constituent quarks, the µ and τ leptons, and the proton.
http://ift.tt/2rdmLW5
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου