Neutrino spectroscopy and the ultra-relativistic cosmic clock

We study the long-range structure of neutrino mass-to-energy ratio in the presence of the ultra-relativistic cosmic clock and its non-perturbative mass-to-energy ratio. We find that the current neutrino mass-to-energy ratio is a consequence of a weakly coupled weakly charged neutrino-tensor system, which is displaced by a fully coupled weakly coupled strong neutrino-tensor system. The ultra-relativistic cosmic clock is a non-perturbative mass-to-energy ratio that is enhanced by the ultra-relativistic neutrino-tensor system. We also find that the current neutrino mass-to-energy ratio is a consequence of a weakly coupled neutrino-tensor system, which is displaced by a fully coupled weakly coupled strong neutrino-tensor system. The current neutrino mass-to-energy ratio is a consequence of a weakly coupled neutrino-tensor system, which is displaced by a fully coupled strong neutrino-tensor system.