TITLE:
Solution Due to Sinc Methods of Numerical Analysis: Three Type Sterile Neutrinos and the Longitudinal Massless with Flavor Changing of Missing Transverse Masses
AUTHORS:
Hung-Te Henry Su, Po-Han Lee
KEYWORDS:
Daya Bay Collaboration, Neutrino Types, Longitudinal Massless, CP Conservation, Strong Interactions, CP Violation
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.13 No.7,
July
29,
2025
ABSTRACT: The Daya Bay Collaboration has discovered that approximately 6.0% of active neutrinos were missing from the nuclear reaction container. This finding has led to a reinterpretation of the three known types of neutrinos. In this paper, we present an analysis based on deductive reasoning, proposing that neutrinos are massless in the longitudinal direction (referred to as “longitudinal massless”). This insight contributes to the broader body of literature on the subject. Additionally, our work resolves the long-standing mystery of CP conservation in strong interactions. Using advanced physical mathematics, we derive a significant result: the transformation between the third type of neutrino and photons or gravitons. We express the probability of this transformation in quantum mechanics using sinc functions which arise from interference effects, providing analytical solutions. Furthermore, considering the mass constraints imposed by the seesaw mechanism—referred to here as the “compete mechanism” (a generalized seesaw model)—we argue that the actual phase
π/4
of CP violation precisely answers the fundamental question at hand.