TL;DR
This paper discusses the potential of future colliders to explore physics beyond the Standard Model, focusing on Higgs boson insights, supersymmetry, the possible 750 GeV boson, and non-perturbative phenomena like sphalerons.
Contribution
It evaluates the prospects of future colliders in discovering new physics signals such as supersymmetry, the 750 GeV boson, and sphalerons, building on recent LHC findings.
Findings
Potential to detect supersymmetry at future colliders.
Possibility of observing the 750 GeV boson if it exists.
Prospects for detecting sphalerons at high-energy colliders.
Abstract
One item on the agenda of future colliders is certain to be the Higgs boson. What is it trying to tell us? The primary objective of any future collider must surely be to identify physics beyond the Standard Model, and supersymmetry is one of the most studied options. it Is supersymmetry waiting for us and, if so, can LHC Run 2 find it? The big surprise from the initial 13-TeV LHC data has been the appearance of a possible signal for a new boson X with a mass ~750 GeV. What are the prospects for future colliders if the X(750) exists? One of the most intriguing possibilities in electroweak physics would be the discovery of non-perturbative phenomena. What are the prospects for observing sphalerons at the LHC or a future collider?
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.