The DISTO First Level Trigger at SATURNE

TL;DR

The paper describes the development of a flexible, software-programmable first-level trigger system for the DISTO spectrometer at SATURNE, enabling efficient event selection in polarized proton collision experiments.

Contribution

It introduces a novel, fully software-programmable trigger system utilizing topological information from fast detectors for the DISTO spectrometer.

Findings

Successful implementation of a flexible trigger system

Enhanced event selection efficiency in proton collision experiments

Ability to switch trigger modes between production and monitoring

Abstract

The DISTO collaboration has built a large-acceptance magnetic spectrometer designed to provide broad kinematic coverage of multi-particle final states produced in $pp$ scattering. The spectrometer has been installed in the polarized proton beam of the Saturne accelerator in Saclay to study polarization observables in the $\vec{p} p \to p K^{+} \vec{Y}$ ($Y = \Lambda, \Sigma^{0}$ or $Y^{*}$) reaction and vector meson production ($\phi, \omega$ and $\rho$) in $pp$ collisions. The common signature of such events is the multiplicity of four charged particles in the final state. A flexible 1st level trigger which uses topological information from fast detectors (scintillating fibers and hodoscope) has been built. It is completely software programmable through a menu-driven user interface and allows switching between production and monitor triggers on successive beam spills.