Instrumentation and its Interaction with the Secondary Beam for the   Fermilab Muon Campus

D. Stratakis; B. Drendel (Fermilab) M.J. Syphers (Fermilab and; Northern Illinois U.)

arXiv:1709.05371·physics.acc-ph·September 19, 2017·1 cites

Instrumentation and its Interaction with the Secondary Beam for the Fermilab Muon Campus

D. Stratakis, B. Drendel (Fermilab) M.J. Syphers (Fermilab and, Northern Illinois U.)

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TL;DR

This paper discusses the beam diagnostics used at Fermilab's Muon Campus for the Muon g-2 experiment, emphasizing their interaction with the secondary beam through simulations and theoretical comparisons.

Contribution

It provides a detailed analysis of secondary beam diagnostics and their interaction with the beam, supported by numerical simulations and theoretical validation.

Findings

01

Diagnostics effectively monitor beam quality with minimal losses

02

Simulations align well with theoretical predictions

03

Insights improve beam delivery for high-precision experiments

Abstract

The Fermilab Muon Campus will host the Muon g-2 experiment - a world class experiment dedicated to the search for signals of new physics. Strict demands are placed on beam diagnostics in order to ensure delivery of high quality beams to the storage ring with minimal losses. In this study, we briefly describe the available secondary beam diagnostics for the Fermilab Muon Campus. Then, with the aid of numerical simulations we detail their interaction with the secondary beam. Finally, we compare our results against theoretical findings.

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Taxonomy

TopicsParticle accelerators and beam dynamics · Superconducting Materials and Applications · Particle Accelerators and Free-Electron Lasers