Open AccessSimulation of backgrounds in detectors and energy deposition in superconducting magnets at {mu}{sup +}{mu}{sup {minus}} colliders
Author(s) -
N. Mokhov,
S. Striganov
Publication year - 1996
Language(s) - English
Resource type - Reports
DOI - 10.2172/195735
Subject(s) - physics , nuclear physics , muon , storage ring , muon collider , luminosity , particle physics , detector , superconducting magnet , hadron , beam (structure) , superconductivity , particle accelerator , optics , condensed matter physics , quantum mechanics , galaxy
A calculational approach is described to study beam induced radiation effects in detector and storage ring components at high-energy high-luminosity {mu}{sup +} {mu}{sup {minus}} colliders. The details of the corresponding physics process simulations used in the MARS code are given. Contributions of electromagnetic showers, synchrotron radiation, hadrons and daughter muons to the background rates in a generic detector for a 2 x 2 TeV {mu}{sup +} {mu}{sup {minus}} collider are investigated. Four configurations of the inner triplet and a detector are examined for two sources: muon decays and beam halo interactions in the lattice elements. The beam induced power density in superconducting magnets is calculated and ways to reduce it are proposed