Multi-track reconstruction algorithm in the Mu2e experiment

Abstract

The Mu2e experiment, under construction at Fermilab, will search for the neutrino-less coherent μ-N→ e-N conversion in the field of a 27Al nucleus. Such a process violates lepton flavor conservation. About 60\% of muons stopped by an 27Al nucleus will undergo nuclear capture, while about 40\% will decay in orbit. To quantify the conversion probability, we define Rμ e, which is given by the ratio between the μ-→ e- conversion rate and the nuclear capture rate [1]: equation Rμ e= (μ- + N(Z,A)→ e- + N(Z,A))(μ- + N(Z,A)→ -μ + N(Z-1,A))\,. equation The upper limit on Rμ e is 7· 10-13 at 90\% CL, set by the SINDRUM II experiment~SINDRUM II:limit. The goal of the Mu2e experiment is to reach a sensitivity on Rμ e of 8· 10-17 at 90\% CL. This represents a four-order of magnitude improvement over the current experimental limit. Mu2e will take its first data in 2027. The signature for the muon conversion is a monochromatic electron of 104.97~/c, an energy slightly below the muon rest mass. While the main experiment goal is to reconstruct the conversion electron, i.e., an event with a single track, there are motivations to develop an efficient tracking algorithm for reconstructing more simultaneous tracks. This could better constrain the background generated by pp-annihilation in the Al target and to search for other Beyond the Standard Model processes. In this paper, we present an algorithm designed to reconstruct multi-particle events.