DESIGN ENHANCEMENTS FOR THE SNS RFQ COAXIAL COUPLER

G. Toby; C. Barbier; S. Lee; A. Narayan; J. Moss; Y. Kang

doi:10.18429/JACoW-LINAC2022-TUPOPA29

DESIGN ENHANCEMENTS FOR THE SNS RFQ COAXIAL COUPLER

G. Toby, C. Barbier, S. Lee, A. Narayan, J. Moss, Y. Kang

RF Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The H^- ion linear accelerator at the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory operates with reliability that routinely surpasses 90% during scheduled beam operation. With the ambitious goal of eventually achieving at least 95% availability, several upgrade and improvement projects are ongoing. One such project is the modification of the coaxial couplers that transfer radio frequency (RF) power to the accelerator's Radio Frequency Quadrupole (RFQ). The proposed modification utilizes stub sections and capacitive coupling to construct a physically separable assembly with DC isolation. With a separated coupler assembly, the section that includes the magnetic coupling loop can be permanently mounted to the RFQ which would eliminate the need to re-adjust the couplers after maintenance activities, upgrades, and repairs. Additionally, the modified design would provide increased multipaction suppression with DC biasing and potentially lower thermal gradients across the device. This paper presents the design and simulation results of the project.

Original language	English
Title of host publication	LINAC 2022 - International Linear Accelerator Conference, Proceedings
Publisher	JACoW Publishing
Pages	470-473
Number of pages	4
ISBN (Electronic)	9783954502158
DOIs	https://doi.org/10.18429/JACoW-LINAC2022-TUPOPA29
State	Published - 2022
Event	31st International Linear Accelerator Conference, LINAC 2022 - Liverpool, United Kingdom Duration: Aug 28 2022 → Sep 2 2022

Publication series

Name	Proceedings - Linear Accelerator Conference, LINAC
ISSN (Print)	2226-0366

Conference

Conference	31st International Linear Accelerator Conference, LINAC 2022
Country/Territory	United Kingdom
City	Liverpool
Period	08/28/22 → 09/2/22

Funding

* ORNL is managed by UT-Battelle, LLC, under contract DE-AC05-00OR22725 for the U.S. Department of Energy. This research was supported by the DOE Office of Science, Basic Energy Science, Scientific User Facilities † [email protected]

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10.18429/JACoW-LINAC2022-TUPOPA29

Cite this

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title = "DESIGN ENHANCEMENTS FOR THE SNS RFQ COAXIAL COUPLER",

abstract = "The H- ion linear accelerator at the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory operates with reliability that routinely surpasses 90% during scheduled beam operation. With the ambitious goal of eventually achieving at least 95% availability, several upgrade and improvement projects are ongoing. One such project is the modification of the coaxial couplers that transfer radio frequency (RF) power to the accelerator's Radio Frequency Quadrupole (RFQ). The proposed modification utilizes stub sections and capacitive coupling to construct a physically separable assembly with DC isolation. With a separated coupler assembly, the section that includes the magnetic coupling loop can be permanently mounted to the RFQ which would eliminate the need to re-adjust the couplers after maintenance activities, upgrades, and repairs. Additionally, the modified design would provide increased multipaction suppression with DC biasing and potentially lower thermal gradients across the device. This paper presents the design and simulation results of the project.",

author = "G. Toby and C. Barbier and S. Lee and A. Narayan and J. Moss and Y. Kang",

note = "Publisher Copyright: {\textcopyright} 2022 Proceedings - Linear Accelerator Conference, LINAC. All rights reserved.; 31st International Linear Accelerator Conference, LINAC 2022 ; Conference date: 28-08-2022 Through 02-09-2022",

year = "2022",

doi = "10.18429/JACoW-LINAC2022-TUPOPA29",

language = "English",

series = "Proceedings - Linear Accelerator Conference, LINAC",

publisher = "JACoW Publishing",

pages = "470--473",

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Toby, G, Barbier, C, Lee, S, Narayan, A, Moss, J & Kang, Y 2022, DESIGN ENHANCEMENTS FOR THE SNS RFQ COAXIAL COUPLER. in LINAC 2022 - International Linear Accelerator Conference, Proceedings. Proceedings - Linear Accelerator Conference, LINAC, JACoW Publishing, pp. 470-473, 31st International Linear Accelerator Conference, LINAC 2022, Liverpool, United Kingdom, 08/28/22. https://doi.org/10.18429/JACoW-LINAC2022-TUPOPA29

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AU - Narayan, A.

AU - Moss, J.

AU - Kang, Y.

PY - 2022

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N2 - The H- ion linear accelerator at the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory operates with reliability that routinely surpasses 90% during scheduled beam operation. With the ambitious goal of eventually achieving at least 95% availability, several upgrade and improvement projects are ongoing. One such project is the modification of the coaxial couplers that transfer radio frequency (RF) power to the accelerator's Radio Frequency Quadrupole (RFQ). The proposed modification utilizes stub sections and capacitive coupling to construct a physically separable assembly with DC isolation. With a separated coupler assembly, the section that includes the magnetic coupling loop can be permanently mounted to the RFQ which would eliminate the need to re-adjust the couplers after maintenance activities, upgrades, and repairs. Additionally, the modified design would provide increased multipaction suppression with DC biasing and potentially lower thermal gradients across the device. This paper presents the design and simulation results of the project.

AB - The H- ion linear accelerator at the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory operates with reliability that routinely surpasses 90% during scheduled beam operation. With the ambitious goal of eventually achieving at least 95% availability, several upgrade and improvement projects are ongoing. One such project is the modification of the coaxial couplers that transfer radio frequency (RF) power to the accelerator's Radio Frequency Quadrupole (RFQ). The proposed modification utilizes stub sections and capacitive coupling to construct a physically separable assembly with DC isolation. With a separated coupler assembly, the section that includes the magnetic coupling loop can be permanently mounted to the RFQ which would eliminate the need to re-adjust the couplers after maintenance activities, upgrades, and repairs. Additionally, the modified design would provide increased multipaction suppression with DC biasing and potentially lower thermal gradients across the device. This paper presents the design and simulation results of the project.

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DESIGN ENHANCEMENTS FOR THE SNS RFQ COAXIAL COUPLER

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