Probing new physics with polarized \(\tau\) and \(\Lambda_c\) in quasielastic \(\nu_{\tau}\!+\!n\!\to\! \tau^-\!+\!\Lambda_c\) scattering process

• Published in: arXiv.org
• Main Authors: Ya-Ru Kong, Li-Fen, Lai, Xin-Qiang, Li, Xin-Shuai, Yan, Ya-Dong, Yang, Dong-Hui, Zheng
• Format: Paper
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 14.11.2023
• Subjects: Charm (particle physics); Form factors; Hadrons; Leptons; Neutrinos; Scattering
• ISSN: 2331-8422

The absence of semitauonic decays of charmed hadrons makes the decay processes mediated by the quark-level \(c\to d \tau^+ \nu_{\tau}\) transition inadequate for probing a generic new physics (NP) with all kinds of Dirac structures. To fill in this gap, we consider in this paper the quasielastic neutrino scattering process \(\nu_{\tau}+n\to \tau^-+\Lambda_c\), and propose searching for NP through the polarizations of the \(\tau\) lepton and the \(\Lambda_c\) baryon. In the framework of a general low-energy effective Lagrangian, we perform a comprehensive analysis of the (differential) cross sections and polarization vectors of the process both within the Standard Model and in various NP scenarios, and scrutinize possible NP signals. We also explore the influence on our findings due to the uncertainties and the different parametrizations of the \(\Lambda_c \to N\) transition form factors, and show that they have become one of the major challenges to further constrain possible NP through the quasielastic scattering process.