General Spin Analysis from Angular Correlations in Two-Body Decays
Abstract
Determining the spin of any new particle and measuring its couplings to other particles and/or itself are crucial in reconstructing the structure of any quantum field theory containing the particle. A general helicity formalism is employed to describe the polarization of the particle in a two-body decay with polarized for the purpose of diagnosing the dynamical properties of three involved particles and for determining their spins altogether. We perform a general and comprehensive analytic analysis with our special focus on grasping fully how to connect the decay helicity amplitudes and decay distributions in the rest frame and those in a laboratory frame with moving with a non-zero velocity through Wick helicity rotation on helicity states and amplitudes. This theoretical framework is demonstrated in a detailed illustrative manner with the Standard Model (SM) processes, the sequential process followed by and the sequential process followed by , and one non-standard decay process of a new vectorlike heavy top quark, , followed by . All the useful formulas directly applicable to any combinations of spins and any types of couplings in the two-body decay followed by suitable two-body decays processes are collected and described in detail.
Cite
@article{arxiv.1903.00166,
title = {General Spin Analysis from Angular Correlations in Two-Body Decays},
author = {Seong Youl Choi and Jae Hoon Jeong and Ji Ho Song},
journal= {arXiv preprint arXiv:1903.00166},
year = {2019}
}
Comments
43 pages, 9 figures