Resonant production of leptogluons at the FCC based lepton-hadron   colliders

Y. C. Acar; U. Kaya; B. B. Oner; S. Sultansoy

arXiv:1511.05814·hep-ph·November 19, 2015·2 cites

Resonant production of leptogluons at the FCC based lepton-hadron colliders

Y. C. Acar, U. Kaya, B. B. Oner, S. Sultansoy

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TL;DR

This paper analyzes the potential of FCC-based lepton-hadron colliders to produce leptogluons resonantly, showing they can explore wider mass regions and probe compositeness scales up to hundreds of TeV, complementing LHC findings.

Contribution

It demonstrates the extended discovery potential of FCC-based ep and colliders for leptogluons and their ability to probe high compositeness scales beyond LHC capabilities.

Findings

01

FCC-based ep and colliders cover wider leptogluon mass regions than LHC.

02

Lepton-proton colliders can probe compositeness scales up to hundreds of TeV.

03

Leptogluons could be discovered earlier at FCC pp collider, but ep and colliders provide additional information.

Abstract

Resonant production of leptogluons at the FCC based ep and \mup colliders have been analyzed. It is shown that e-FCC and \mu-FCC will cover much wider region of e_{8} and \mu_{8} masses than the LHC. While leptogluons with appropriate masses (if exist) will be discovered earlier by the FCC pp collider, lepton-proton colliders will give opportunity to handle very important additional information. For example, compositeness scale can be probed up to multi-hundred TeV region.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Particle Detector Development and Performance · Particle Accelerators and Free-Electron Lasers