Versatile Multi-MW Proton Facility with Synchrotron Upgrade of Fermilab   Proton Complex

J. Eldred; R. Ainsworth; Y. Alexahin; C. Bhat; S. Chattopadhyay; P.; Derwent; D. Johnson; C. Johnstone; J. Johnstone; I. Kourbanis; V. Lebedev; S.; Nagaitsev; W. Pellico; E. Pozdeyev; V. Shiltsev; M. Syphers; C.Y. Tan; A.; Valishev; and R. Zwaska

arXiv:2203.08707·physics.acc-ph·March 17, 2022

Versatile Multi-MW Proton Facility with Synchrotron Upgrade of Fermilab Proton Complex

J. Eldred, R. Ainsworth, Y. Alexahin, C. Bhat, S. Chattopadhyay, P., Derwent, D. Johnson, C. Johnstone, J. Johnstone, I. Kourbanis, V. Lebedev, S., Nagaitsev, W. Pellico, E. Pozdeyev, V. Shiltsev, M. Syphers, C.Y. Tan, A., Valishev, and R. Zwaska

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TL;DR

This paper discusses the upgrade of Fermilab's proton complex to a versatile multi-megawatt facility, supporting advanced neutrino and proton decay research within the DUNE/LBNF program.

Contribution

It introduces a novel synchrotron upgrade enabling Fermilab's proton complex to achieve multi-megawatt power levels for cutting-edge physics experiments.

Findings

01

Enhanced proton beam power capabilities

02

Support for long-term neutrino research programs

03

Improved infrastructure for future particle physics experiments

Abstract

DUNE/LBNF constitutes an international multi-decadal physics program for leading-edge neutrino science and proton decay studies [1] and is expected to serve as the flagship particle experiment based at Fermilab.

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Taxonomy

TopicsNeutrino Physics Research · Particle physics theoretical and experimental studies · Particle accelerators and beam dynamics