New Physics in $B_q^0-\bar B_q^0$ Mixing: Present Challenges, Prospects, and Implications for $B_q^0\to\mu^+\mu^-$

TL;DR

This paper investigates the constraints on New Physics from $B_q^0-ar B_q^0$ mixing, analyzing current data, tensions in CKM element determinations, and implications for rare decay searches, highlighting the $B_s$ system as particularly promising.

Contribution

It provides a comprehensive analysis of current constraints on New Physics in $B_q$ mixing, considering CKM tensions and future prospects, with a focus on implications for rare decay processes.

Findings

Current data constrains New Physics parameters in $B_q$ mixing.

The $B_s$ system offers a promising avenue for discovering New Physics.

Future measurements of the Unitarity Triangle apex are crucial for $B_d$ analysis.

Abstract

The phenomenon of $B^0_q-\bar B^0_q$ mixing ($q=d,s$) provides a sensitive probe for physics beyond the Standard Model. We explore the corresponding space for New Physics left through the current data, having a careful look at analyses of the Unitarity Triangle that are needed for the Standard Model predictions of the $B_q$ mixing parameters. In particular, we explore the impact of tensions between inclusive and exclusive determinations of the CKM matrix elements $|V_{ub}|$ and $|V_{cb}|$. Moreover, we focus on the angle $\gamma$ of the Unitarity Triangle, comparing measurements from $B\to DK$ and $B\to\pi\pi$, $\rho\pi$, $\rho\rho$ decays, where the latter are typically interpreted in terms of the angle $\alpha$. We discuss various scenarios and present the corresponding state-of-the-art constraints on the New Physics parameters of $B_q^0-\bar B_q^0$ mixing. We point out that these results have an interesting application in the analysis of rare $B_q^0\to \mu^+\mu^-$ decays, allowing us to minimise the impact of CKM parameters in the search for New Physics. In view of the high-precision era, we make future projections. Interestingly, we find that for the extraction of the New Physics parameters in the $B_d$ system the determination of the apex of the Unitarity Triangle results in a key limiting factor. By contrast, the corresponding impact is negligible for the $B_s$ system, making it a promising candidate to reveal sources of New Physics.