Muon Collider Lattice Concepts

Y. Alexahin; E. Gianfelice-Wendt; V. Kapin

arXiv:1806.08717·physics.acc-ph·November 14, 2018

Muon Collider Lattice Concepts

Y. Alexahin, E. Gianfelice-Wendt, V. Kapin

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TL;DR

This paper discusses lattice design solutions for a Muon Collider, addressing challenges like low beta-star and large aperture, using Nb3Sn magnets to enable high-energy physics research at the energy frontier and Higgs factory.

Contribution

It introduces basic lattice design solutions that enable Muon Collider goals with Nb3Sn magnet technology, addressing key challenges in the field.

Findings

01

Proposed lattice solutions achieve low beta-star and large aperture requirements.

02

Demonstrated feasibility of using Nb3Sn magnets for Muon Collider design.

03

Supported potential for high-energy physics and Higgs factory applications.

Abstract

A Muon Collider poses a number of challenging problems in the lattice design - low beta-star, small circumference, large physical and dynamic aperture - which must be solved in order to realize the unique opportunities it offers for the high-energy physics. This contribution presents basic solutions which make it possible to achieve the goals for both the energy frontier collider and the Higgs factory with Nb3Sn magnet parameters.

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