Simulation work on the energy resolution for the upcoming hypernuclear experiments in Hall C at Jefferson Lab

This study presents the simulation of kinematics for hypernuclear experiments in Hall C at Jefferson Lab, aimed at studying hypernuclei and their properties. These experiments investigate hyperon interactions in nuclear matter using advanced detectors and a highly precise beamline. With variables including beam energy, scattering momentum, and scattering angles, the simulation offers a thorough framework that employs CERN ROOT to model kinematic behavior. A key focus of the study is the dependence on missing mass resolution on mass number A with variation of these variables. Simulation results demonstrate that these variables significantly affect the variation of missing mass resolution. Beam energy and scattering momentums affect missing mass resolution similarly whereas scattering angles affect differently. The findings will be presented in detail, underlining their importance in enhancing the design and optimizing upcoming experiments in Hall C. Finally, this research contributes to a deeper understanding of hypernuclear physics and the complex interactions of the hyperons in nuclear matter.