Introduction Neutrino Oscillations and the Cosmic Energy Inversion CEIT Theory

This study investigates neutrino oscillations within the framework of the Cosmic Energy Inversion Theory (CEIT-v2), a geometric-field theory proposing spacetime torsion as the source of dark matter and dark energy phenomena. We demonstrate that CEIT-v2 naturally incorporates neutrino mass generation through Yukawa couplings to a primordial energy field, providing a geometric alternative to the Higgs mechanism. The theory suggests that local perturbations in this energy field, induced by variations in matter density, could lead to environment-dependent modifications of neutrino oscillation parameters. While consistent with existing experimental results from Super-Kamiokande and IceCube, CEIT-v2 makes the falsifiable prediction of detectable variations in oscillation patterns for neutrinos traversing extreme gravitational environments such as near neutron stars or galactic cores. This work establishes the theoretical foundation for testing CEIT-v2 against precision neutrino data from upcoming experiments including DUNE and JUNO, potentially offering new insights into the relationship between particle physics and cosmological dynamics.