MUSIC: A Multi-Purpose Detector Concept for Physics at the 10 TeV Muon Collider

Paolo Andreetto (1); Nazar Bartosik (2; 3); Andrea Bersani (4); Daniele Calzolari (5; 6); Massimo Casarsa (7); Vittoria Ludovica Ciccarella (8; 9); Elisa Di Meco (8); Ruben Gargiulo (10); Alessio Gianelle (1); Carlo Giraldin (7; 11); Karol Krizka (12); Anton Lechner (6); Luigi Longo (13); Donatella Lucchesi (1; 5); Leonardo Palombini (1; 5); Nadia Pastrone (2); Ivano Sarra (8); Lorenzo Sestini (14); Rosamaria Venditti (13; 15); Davide Zuliani (1; 5) ((1) INFN Sezione di Padova; Padua; Italy; (2) INFN Sezione di Torino; Turin; Italy; (3) Universit\`a del Piemonte Orientale; Vercelli; Italy; (4) INFN Sezione di Genova; Genoa; Italy; (5) Universit\`a di Padova; Padua; Italy; (6) European Organization for Nuclear Research; Geneva; Switzerland; (7) INFN Sezione di Trieste; Trieste; Italy; (8) INFN Laboratori Nazionali di Frascati; Frascati; Italy; (9) Sapienza Universit\`a di Roma; Rome; Italy; (10) INFN Sezione di Roma 1; Rome; Italy; (11) Universit\`a di Trieste; Trieste; Italy; (12) University of Birmingham; Birmingham; United Kingdom; (13) INFN Sezione di Bari; Bari; Italy; (14) INFN Sezione di Firenze; Florence; Italy; (15) Universit\`a di Bari; Bari; Italy)

arXiv:2511.23273·hep-ex·December 1, 2025

MUSIC: A Multi-Purpose Detector Concept for Physics at the 10 TeV Muon Collider

Paolo Andreetto (1), Nazar Bartosik (2, 3), Andrea Bersani (4), Daniele Calzolari (5, 6), Massimo Casarsa (7), Vittoria Ludovica Ciccarella (8, 9), Elisa Di Meco (8), Ruben Gargiulo (10), Alessio Gianelle (1), Carlo Giraldin (7, 11), Karol Krizka (12), Anton Lechner (6)

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TL;DR

This paper introduces MUSIC, a versatile detector designed for 10 TeV muon collider experiments, detailing its components, background mitigation, and performance in reconstructing various physics objects.

Contribution

It presents a novel detector concept tailored for high-energy muon collider environments, emphasizing background handling and object reconstruction strategies.

Findings

01

Effective background mitigation strategies demonstrated.

02

High-precision reconstruction of electrons, photons, muons, and jets.

03

Promising jet flavor identification performance.

Abstract

This work presents a proof of concept for MUSIC, a multi-purpose detector conceived for high-precision and ultra-high-energy physics studies in the challenging environment of $s = 10$ TeV muon-antimuon collisions. The detector features a central tracking system, electromagnetic and hadronic calorimeters, and dedicated muon detectors. This paper outlines the main design elements of each subdetector, with an emphasis on the effects of machine-induced backgrounds and the reconstruction strategies employed for key physics objects. Performance results for electrons, photons, muons, and jets are reported, and studies of jet flavour identification are discussed.

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Taxonomy

TopicsParticle Detector Development and Performance · Radiation Detection and Scintillator Technologies · Particle physics theoretical and experimental studies