THE PHYSICS OF THE NEW YOU!
Because all particles are derived from the interaction of light with the structural metric of spacetime, the virtual particle "sea" will contain any asymmetry embedded in light, spacetime, or their interaction. The only asymmetry we know of in either light or spacetime is the potential time asymmetry; in light the component of time is implicitly expressed as "frequency". In virtual particle pairs the potential for asymmetry is expressed as "information" in the form of various charges, which in unpaired "real" particles we characterize as the conserved symmetry debts of light. It is likely that the IVB particles are "metric" in origin, "string-like" particles (as in the particles of "string theory"), which are composed of a compressed dimensional matrix requiring a huge binding energy to maintain - the source of the IVB's enormous mass-energy (the W is about 80 times more massive than the proton). This compressed metric, derived from (or identical to) the dense metric of the early Universe, is the mechanism which enables the IVBs to bring particles into such close spatial proximity that they can exchange charges, swap identities, or create new ones without violating the applicable conservation laws. Being derived from the metric, the asymmetric principle (if any) embedded in the IVBs must apparently be time. The time asymmetry is reflected in the differential rate of decay of leptoquarks vs antileptoquarks.
The problem for physicists is that neutrinos are impossible to see and difficult to detect. Any instrument designed to do so may feel solid to the touch, but to neutrinos, even stainless steel is mostly empty space, as wide open as a solar system is to a comet. What’s more, neutrinos, unlike most subatomic particles, have no electric charge—they’re neutral, hence the name-ghost particle