Universal Unitarity Triangle 2016 and the Tension Between $ÎM_{s,d}$ and $\varepsilon_K$ in CMFV Models
arXiv:1602.04020 · doi:10.1140/epjc/s10052-016-4044-6
Abstract
Motivated by the recently improved results from the Fermilab Lattice and MILC Collaborations on the hadronic matrix elements entering $ÎM_{s,d}$ in $B_{s,d}^0-\bar B_{s,d}^0$ mixing, we determine the Universal Unitarity Triangle (UUT) in models with Constrained Minimal Flavour Violation (CMFV). Of particular importance are the very precise determinations of the ratio $|V_{ub}|/|V_{cb}|=0.0864\pm0.0025$ and of the angle $γ=(63.0\pm 2.1)^\circ$. They follow in this framework from the experimental values of $ÎM_{d}/ÎM_s$ and of the CP-asymmetry $S_{ÏK_S}$. As in CMFV models the new contributions to meson mixings can be described by a single flavour-universal variable $S(v)$, we next determine the CKM matrix elements $|V_{ts}|$, $|V_{td}|$, $|V_{cb}|$ and $|V_{ub}|$ as functions of $S(v)$ using the experimental value of $ÎM_s$ as input. The lower bound on $S(v)$ in these models, derived by us in 2006, implies then upper bounds on these four CKM elements and on the CP-violating parameter $\varepsilon_K$, which turns out to be significantly below its experimental value. This strategy avoids the use of tree-level determinations of $|V_{ub}|$ and $|V_{cb}|$ that are presently subject to considerable uncertainties. On the other hand if $\varepsilon_K$ is used instead of $ÎM_s$ as input, $ÎM_{s,d}$ are found significantly above the data. In this manner we point out that the new lattice data have significantly sharpened the tension between $ÎM_{s,d}$ and $\varepsilon_K$ within the CMFV framework. This implies the presence of new physics contributions beyond this framework that are responsible for the breakdown of the flavour universality of the function $S(v)$. We also present the implications of these results for $K^+\toÏ^+ν\barν$, $K_L\toÏ^0ν\barν$ and $B_{s,d}\toμ^+μ^-$ within the Standard Model.
25 pages, 6 figures. v3: Numerical update in view of the modified results by the Fermilab-MILC collaboration with only minor impact on our results. References added