{\mu}TRISTAN and LHC/Tevatron/FCC/SppC Based Antimuon-Hadron Colliders

TL;DR

This paper proposes the construction of muon-proton and muon-nucleus colliders based on existing and future large hadron colliders, aiming for multi-TeV energies and high luminosities to explore Standard Model and beyond physics.

Contribution

It introduces the concept and main parameters of muon-hadron colliders tangential to LHC, Tevatron, FCC, and SppC, highlighting their potential for high-energy physics research.

Findings

High luminosities (>10^{33} cm^{-2}s^{-1}) for muon-proton colliders.

Luminosities (>10^{30} cm^{-2}s^{-1}) for muon-nucleus colliders.

Potential to explore SM and BSM physics at multi-TeV energies.

Abstract

Recently, the construction of {\mu^+}{e^-} and {\mu^+}{\mu^+} colliders, {\mu}TRISTAN, at KEK has been proposed. We argue that the construction of a similar {\mu^+} ring tangential to LHC/Tevatron/FCC/SppC will give an opportunity to realize {\mu^+}p and {\mu^+}A collisions at multi-TeV scale center-of-mass energies. In this paper the main parameters of proposed colliders have been studied. It is shown that sufficiently high luminosities can be achieved for all proposals under consideration: L exceeds {10^{33} cm^{-2}s^{-1}} for {\mu^+}p colliders and {10^{30} cm^{-2}s^{-1}} for {\mu^+}A colliders. Certainly, proposed colliders will provide huge potential for both SM (especially QCD basics) and BSM physics searches.