"The origins of es is one of the biggest mysteries in modern physics since they are beyond the realm of the Standard Model. As massive particles, neutrinos undergo throughout their propagation. In this paper we show that when a neutrino oscillates from a flavor state α to a flavor state β, it follows three possible paths consistent with the Quantum Yang- Baxter Equations. These trajectories define the transition probabilities of the oscillations. Moreover, we define a probability matrix for flavor transitions consistent with the Quantum Yang-Baxter Equations, and estimate the values of the three neutrino mass eigenvalues within the framework of the triangular formulation."
Quote Details
Added by wikiquote-import-bot
Unverified quote
0 likes
Original Language: English
Available Languages (1)
Sources
Ivan Arraut and Enrique Arrieta-Diaz. "Neutrino oscillations from the perspective of the quantum Yang-Baxter equations." arXiv preprint arXiv:2409.00560 (2024).https://arxiv.org/abs/2409.00560
https://en.wikiquote.org/wiki/Yang%E2%80%93Baxter_equation
Revision History
No revisions have been submitted for this quote.
Categories
Yang–Baxter equation
4 quotes on TrueQuotesView all quotes by Yang–Baxter equation →
Related Quotes
"It has been known for some time that the Yang-Baxter equations can be solved using s. More recently it was discovered…"
"About 40 years ago, in the study of quantum s … , in particular in the framework of the … , new algebraic structures …"
"At an early stage the Yang-Baxter equation (YBE) appeared in several different guises in the literature, and sometime…"
"… what is the wave function? Is it a complete and comprehensive representation of the world? Or do we need additional…"
"What is the empirical content of quantum mechanics? Or how does the wave function assigned to a relate to the results…"
"... was formalized by a number of authors ... as the requirement that the wave function of a multi-electron system is…"
"That the pion-nucleon (πN) coupling constant is fundamental in our understanding of the Cosmos has been adequately em…"