Low Level RF Control for the PIP-II Accelerator
J. P. Edelen (1), B. E. Chase (1), E. Cullerton (1), J., Einstein-Curtis (1), J. Holzbauer (1), D. Klepec (1), Y. Pischalnikov (1), W., Schappert (1), P. Varghese (1), G. Joshi (2), S. Khole (2), D. Sharma (2), ((1) Fermilab, Batavia, IL, (2) Department of Atomic Energy, India)
TL;DR
This paper discusses the challenges and current status of the low level RF control system designed for the PIP-II superconducting accelerator upgrade at Fermilab, highlighting its critical role in meeting the project's stringent requirements.
Contribution
It provides an overview of the specific challenges faced in designing the LLRF control system for PIP-II and reports on the current development status.
Findings
Identification of key challenges in LLRF control for PIP-II
Current progress in LLRF system development
Insights into the system's role in accelerator performance
Abstract
The PIP-II accelerator is a proposed upgrade to the Fermilab accelerator complex that will replace the existing, 400 MeV room temperature LINAC with an 800 MeV superconducting LINAC. Part of this upgrade includes a new injection scheme into the booster that levies tight requirements on the LLRF control system for the cavities. In this paper we discuss the challenges of the PIP-II accelerator and the present status of the LLRF system for this project.
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Taxonomy
TopicsParticle accelerators and beam dynamics · Gyrotron and Vacuum Electronics Research · Particle Accelerators and Free-Electron Lasers