Identifying physics beyond SMEFT in the angular distribution of $\Lambda_b\rightarrow \Lambda_c(\rightarrow\Lambda\pi)\tau\bar\nu_\tau$ decay
Abstract
In the Standard Model Effective Field Theory (SMEFT), the symmetry of the Standard Model is linearly realized. However, it is possible that more general effective field theories, such as the Higgs Effective Field Theory (HEFT) where this symmetry is realized non-linearly, are needed to describe the data. Identifying physics beyond SMEFT could shed light on the nature of Higgs and the realization of the electroweak symmetry. We explore the possibility of such an identification by studying the effects of scalar and vector new-physics operators on the angular distribution of . This decay is sensitive to the 6-dimensional effective operator , which is present in HEFT but suppressed in SMEFT. We identify the angular observables that can have significant contributions from , and hence would be useful for probing not only BSM physics but also physics beyond SMEFT. We further find that constraining the branching ratio of would be crucial for performing this task.
Cite
@article{arxiv.2305.16007,
title = {Identifying physics beyond SMEFT in the angular distribution of $\Lambda_b\rightarrow \Lambda_c(\rightarrow\Lambda\pi)\tau\bar\nu_\tau$ decay},
author = {Siddhartha Karmakar and Susobhan Chattopadhyay and Amol Dighe},
journal= {arXiv preprint arXiv:2305.16007},
year = {2024}
}
Comments
17 pages, 9 figures, 5 tables. Major changes from version 1: updated NP parameter fits, effects of a stronger bound on semileptonic Bc decay included, sections rearranged, references updated. Version to be published in PRD