# $R_{K^{(*)}}$ and related $b\to s\ell\bar\ell$ anomalies in minimal   flavor violation framework with $Z'$ boson

**Authors:** Cheng-Wei Chiang, Xiao-Gang He, Jusak Tandean, Xing-Bo Yuan

arXiv: 1706.02696 · 2018-02-23

## TL;DR

This paper investigates whether a heavy Z' boson within the minimal flavor violation framework can explain the b→sℓℓ anomalies observed in LHCb measurements, while satisfying various experimental constraints.

## Contribution

It analyzes the parameter space of a Z' boson with MFV couplings in light of b→sℓℓ anomalies and predicts observable lepton-flavor violating processes within experimental reach.

## Key findings

- Allowed parameter regions depend on neutrino mass hierarchy, favoring inverted hierarchy.
- Predicted branching ratios for certain LFV processes are close to current experimental bounds.
- Some observables could be tested in upcoming experiments, providing potential evidence for the model.

## Abstract

A recent LHCb measurement of the ratio $R_{K^*}$ of $B\to K^*\mu\bar\mu$ to $B\to K^*e\bar e$ branching fractions has produced results in mild tension with the standard model (SM). This adds to the known anomalies also induced by the $b\to s\ell\bar\ell$ transitions, resulting in a confidence level now as high as 4$\sigma$. We analyze whether the parameter space preferred by all the $b\to s\ell\bar\ell$ anomalies is compatible with a heavy $Z'$ boson assumed to have nonuniversal couplings to SM fermions dictated by the principle of minimal flavor violation (MFV). We deal with the MFV couplings of the $Z'$ to leptons in the context of the type-I seesaw scenario for generating neutrino masses. The flavor-violating $Z'$ interactions are subject to stringent constraints from other processes, especially $B$-$\bar B$ mixing, charged lepton decays $\ell_i\to\ell_j\ell_k\bar\ell_l$ occurring at tree level, and the loop induced $\mu\to e\gamma$. We perform scans for parameter regions allowed by various data and predict the ranges for a number of observables. Some of the predictions, such as the branching fractions of lepton-flavor violating $\tau\to3\mu$, $B\to K e\mu$, $K_L\to e\mu$, and $Z\to\ell\ell'$, are not far below their experimental bounds and therefore could be probed by searches in the near future. The viable parameter space depends strongly on the neutrino mass hierarchy, with a preference for the inverted one.

## Full text

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## Figures

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## References

114 references — full list in the complete paper: https://tomesphere.com/paper/1706.02696/full.md

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