Quantum-Gravity Can Be Recalculated By Refined Time Smaller Than The Planck-Time In A Rotational Double Torus Universe

In particular calculations have been made for the detection of extraterrestrial high energy neutrinos. Additional the rest-energy of a neutrino is calculated (equivalent to its rest mass). But both calculations are not standard. The calculations are made from the perspective of a new model for the universe: The Double Torus hypothesis. The alternative calculation shows that the result matches a neutrino-incident in the ICECUBE-project in Antartica for a value of 250 TeV energy. Moreover, an extra calculation is made for the expected neutrino rest-energy by the Standard Model (equivalent for its rest-mass). This shows that time roughly 100 times smaller than the Planck-time can generate a neutrino-rest-energy of 2.2 eV. This delivers evidence for the existence of a sub-quantum-domain of refined time that affects dark vacuum-particles; this is dark matter described in the Double Torus-framework. That generates visible quantumgravitational particles. Such a calculation could also be performed for an electron or a quark. But that is not (yet) performed in this paper. But one of the conclusions is that the detection of high energy neutrinos could turn out to be additional evidence for the existence of rotational Double Torus Universe.