English

Probability Density Functions for CP-Violating Rephasing Invariants

High Energy Physics - Phenomenology 2018-04-18 v1

Abstract

The implications of the anarchy principle on CP violation in the lepton sector are investigated. A systematic method is introduced to compute the probability density functions for the CP-violating rephasing invariants of the PMNS matrix from the Haar measure relevant to the anarchy principle. Contrary to the CKM matrix which is hierarchical, it is shown that the Haar measure, and hence the anarchy principle, are very likely to lead to the observed PMNS matrix. Predictions on the CP-violating Dirac rephasing invariant jD|j_D| and Majorana rephasing invariant j1|j_1| are also obtained. They correspond to jDHaar=π/1050.030\langle|j_D|\rangle_\text{Haar}=\pi/105\approx0.030 and j1Haar=1/(6π)0.053\langle|j_1|\rangle_\text{Haar}=1/(6\pi)\approx0.053 respectively, in agreement with the experimental hint from T2K of jDexp0.032±0.005|j_D^\text{exp}|\approx0.032\pm0.005 (or 0.033±0.003\approx0.033\pm0.003) for the normal (or inverted) hierarchy.

Cite

@article{arxiv.1801.10165,
  title  = {Probability Density Functions for CP-Violating Rephasing Invariants},
  author = {Jean-François Fortin and Nicolas Giasson and Luc Marleau},
  journal= {arXiv preprint arXiv:1801.10165},
  year   = {2018}
}

Comments

1+15 pages, 2 figures

R2 v1 2026-06-23T00:04:39.667Z