# Leptoquark solution for both the flavor and ANITA anomalies

**Authors:** Bhavesh Chauhan, Subhendra Mohanty

arXiv: 1812.00919 · 2019-05-22

## TL;DR

This paper proposes a leptoquark-based model that simultaneously explains the ANITA anomalous events and flavor anomalies in B-meson decays, offering a unified solution to multiple experimental discrepancies.

## Contribution

It introduces a sterile neutrino coupled to a chiral vector leptoquark to account for both ANITA and flavor anomalies, a novel unified approach.

## Key findings

- Leptoquark-mediated neutrino interactions can produce Earth-emergent tau leptons consistent with ANITA observations.
- The proposed scenarios yield high survival probabilities for sterile neutrinos traversing Earth.
- The energy distribution of emergent taus matches the ANITA data.

## Abstract

The ANITA experiment has seen anomalous Earth emergent showers of EeV energies which cannot be explained with Standard Model interactions. In addition, tests of lepton flavor universality in $ R(D^{(\ast)})$ and $R(K^{(\ast)})$ have shown significant deviations from theoretical predictions. It is known that, among single leptoquark solutions, only the chiral vector leptoquark $U_1 \sim (\mathbf{3}, \mathbf{1} , 2/3)$ can simultaneously address the discrepancies. In this paper, we show that the leptoquark motivated by flavor anomalies coupled to a sterile neutrino can also explain the ANITA Anomalous Events. We consider two scenarios, (a) the sterile neutrino, produced via resonant leptoquark mediated neutrino-nucleon interactions, propagates through the Earth without significant attenuation and decays near the surface to a $\tau$ lepton; and (b) a cosmogenic sterile neutrino interacts with the matter near the surface of Earth and generates a $\tau$ lepton. These two scenarios give significantly large survival probabilities even when regeneration effects are not taken into account. In the second scenario, the distribution of emergent tau energy peaks in the same energy range as seen by ANITA.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1812.00919/full.md

## References

43 references — full list in the complete paper: https://tomesphere.com/paper/1812.00919/full.md

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Source: https://tomesphere.com/paper/1812.00919