Abstract
The STT particle detection system, comprised of dual-sided microstrip silicon detectors, provides data on detection time and particle track, type, and ionization losses. One technique for calibrating and analyzing the data from the energy channel of the system uses all this information and allows us to limit the error of reconstructing the initial kinetic energy to ∼1% for such products of nuclear reactions as protons and deuterons. This technique, which is described in this work, involves an integral comparative analysis of the response of all readout channels. Laboratory measurement data (including the detection of α-emission), data from scientific experiments, and data from simulations are all used. The technique, combined with the track reconstruction method also described below, allows us to determine the vector value of the initial particle momentum that is needed in advanced research on the spin physics of nucleon-nucleon interaction.
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