A search for leptonic photon Zl at all three CLIC energy stages by using artificial neural networks (ANN)

Abstract

In this work, the possible dynamics of the massive leptonic photon \(Zl\) are reconsidered via the process \(e+e- \ rightarrow μ+μ-\) at Compact Linear Collider (CLIC) with updated center of mass energies (\(380\ GeV,\ 1500\ GeV\ and\ 3000\ GeV\)). We show that the new generation colliders as CLIC can observe massive leptophilic vector boson Zl with mass up to the center of mass energy, provided that leptonic coupling constant is \(gl ≥ 10- 3\). In this study, we also estimated the cross-sections by artificial neural networks using the theoretical results we obtained for CLIC. According to the results obtained, it was seen that these predictions could be made through machine learning.