Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators

K. McGee; S. Kim; K. Elliott; A. Ganshyn; W. Hartung; E. Metzgar; P. Ostroumov; L. Popielarski; J. Popielarski; A. Taylor; T. Xu; M. P. Kelly; B. Guilfoyle; T. Reid

doi:10.1103/PhysRevAccelBeams.24.112003

Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators

K. McGee, S. Kim, K. Elliott, A. Ganshyn, W. Hartung, E. Metzgar, P. Ostroumov, L. Popielarski, J. Popielarski, A. Taylor, T. Xu, M. P. Kelly, B. Guilfoyle, T. Reid

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We present the first rf studies of the medium-β superconducting radio frequency (SRF) elliptical cavities designed for Michigan State University's Facility for Rare Isotope Beams (FRIB) energy upgrade linac. The proposed energy upgrade for this continuous-wave (CW) superconducting linac will double the final beam energy from 200 to 400 MeV/u for the heaviest uranium ions within the 80 m of space available in the FRIB tunnel. Two prototype βopt=0.65 644 MHz five-cell elliptical SRF cavities were fabricated and tested to validate the novel cavity design with three conventional rf recipes: (1) Electropolishing (EP-only), (2) EP+48 h 120 °C bake (EP+baking), and (3) Buffered chemical Polishing+48 h 120 °C bake (BCP+baking). The EP-only recipe achieved a 2 K quality factor (Q0) of 2.3×1010 at the FRIB energy upgrade design accelerating gradient (Eacc) of 17.5 MV/m, and Q0 of 1.2×1010 at a maximum gradient of 26 MV/m, where the gradient was ultimately limited by the available rf amplifier power available for this test. These results validate the potential of the novel 644 MHz medium-β cavity design and motivate its use in future high-Q0 development work. The multipacting band, which exists at Eacc≈10 MV/m, was completely conditioned in the continuous-wave mode. We also observed that combining the 48 h 120 °C baking treatment with EP did not improve the EP-only cavity performance at 2 K due to increased residual resistance (R0) and increased medium-field Q-slope. BCP+baking was also found to produce lower Q0 in this cavity due to increased medium-field Q-slope. The mechanical modes of this cavity were measured at room temperature, verifying that the quality factor of the dominant "accordion"mechanical mode these medium-β cavities are particularly vulnerable to is close to that of the 1.3 GHz TESLA cavities. Thus, this mode arising from the novel geometry of these cavities is shown to not be of excessive concern for resonance control.

Original language	English
Article number	112003
Journal	Physical Review Accelerators and Beams
Volume	24
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevAccelBeams.24.112003
State	Published - Nov 2021
Externally published	Yes

Funding

This work is supported by the Michigan State University and US Department of Energy, Office of Science, High Energy Physics Award No. DE-SC0020371. This work is additionally supported by the US Department of Energy, Office of Science, High Energy Physics under Cooperative Agreement Award No. DE-SC0018362.

Access to Document

10.1103/PhysRevAccelBeams.24.112003

Cite this

McGee, K., Kim, S., Elliott, K., Ganshyn, A., Hartung, W., Metzgar, E., Ostroumov, P., Popielarski, L., Popielarski, J., Taylor, A., Xu, T., Kelly, M. P., Guilfoyle, B., & Reid, T. (2021). Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators. Physical Review Accelerators and Beams, 24(11), Article 112003. https://doi.org/10.1103/PhysRevAccelBeams.24.112003

@article{5703074c86ef4a5f937efdee9ce7a2d9,

title = "Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators",

abstract = "We present the first rf studies of the medium-β superconducting radio frequency (SRF) elliptical cavities designed for Michigan State University's Facility for Rare Isotope Beams (FRIB) energy upgrade linac. The proposed energy upgrade for this continuous-wave (CW) superconducting linac will double the final beam energy from 200 to 400 MeV/u for the heaviest uranium ions within the 80 m of space available in the FRIB tunnel. Two prototype βopt=0.65 644 MHz five-cell elliptical SRF cavities were fabricated and tested to validate the novel cavity design with three conventional rf recipes: (1) Electropolishing (EP-only), (2) EP+48 h 120 °C bake (EP+baking), and (3) Buffered chemical Polishing+48 h 120 °C bake (BCP+baking). The EP-only recipe achieved a 2 K quality factor (Q0) of 2.3×1010 at the FRIB energy upgrade design accelerating gradient (Eacc) of 17.5 MV/m, and Q0 of 1.2×1010 at a maximum gradient of 26 MV/m, where the gradient was ultimately limited by the available rf amplifier power available for this test. These results validate the potential of the novel 644 MHz medium-β cavity design and motivate its use in future high-Q0 development work. The multipacting band, which exists at Eacc≈10 MV/m, was completely conditioned in the continuous-wave mode. We also observed that combining the 48 h 120 °C baking treatment with EP did not improve the EP-only cavity performance at 2 K due to increased residual resistance (R0) and increased medium-field Q-slope. BCP+baking was also found to produce lower Q0 in this cavity due to increased medium-field Q-slope. The mechanical modes of this cavity were measured at room temperature, verifying that the quality factor of the dominant {"}accordion{"}mechanical mode these medium-β cavities are particularly vulnerable to is close to that of the 1.3 GHz TESLA cavities. Thus, this mode arising from the novel geometry of these cavities is shown to not be of excessive concern for resonance control.",

author = "K. McGee and S. Kim and K. Elliott and A. Ganshyn and W. Hartung and E. Metzgar and P. Ostroumov and L. Popielarski and J. Popielarski and A. Taylor and T. Xu and Kelly, \{M. P.\} and B. Guilfoyle and T. Reid",

note = "Publisher Copyright: {\textcopyright} 2021 authors. Published by the American Physical Society.",

year = "2021",

month = nov,

doi = "10.1103/PhysRevAccelBeams.24.112003",

language = "English",

volume = "24",

journal = "Physical Review Accelerators and Beams",

issn = "2469-9888",

publisher = "American Physical Society",

number = "11",

}

McGee, K, Kim, S, Elliott, K, Ganshyn, A, Hartung, W, Metzgar, E, Ostroumov, P, Popielarski, L, Popielarski, J, Taylor, A, Xu, T, Kelly, MP, Guilfoyle, B & Reid, T 2021, 'Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators', Physical Review Accelerators and Beams, vol. 24, no. 11, 112003. https://doi.org/10.1103/PhysRevAccelBeams.24.112003

TY - JOUR

T1 - Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators

AU - McGee, K.

AU - Kim, S.

AU - Elliott, K.

AU - Ganshyn, A.

AU - Hartung, W.

AU - Metzgar, E.

AU - Ostroumov, P.

AU - Popielarski, L.

AU - Popielarski, J.

AU - Taylor, A.

AU - Xu, T.

AU - Kelly, M. P.

AU - Guilfoyle, B.

AU - Reid, T.

PY - 2021/11

Y1 - 2021/11

N2 - We present the first rf studies of the medium-β superconducting radio frequency (SRF) elliptical cavities designed for Michigan State University's Facility for Rare Isotope Beams (FRIB) energy upgrade linac. The proposed energy upgrade for this continuous-wave (CW) superconducting linac will double the final beam energy from 200 to 400 MeV/u for the heaviest uranium ions within the 80 m of space available in the FRIB tunnel. Two prototype βopt=0.65 644 MHz five-cell elliptical SRF cavities were fabricated and tested to validate the novel cavity design with three conventional rf recipes: (1) Electropolishing (EP-only), (2) EP+48 h 120 °C bake (EP+baking), and (3) Buffered chemical Polishing+48 h 120 °C bake (BCP+baking). The EP-only recipe achieved a 2 K quality factor (Q0) of 2.3×1010 at the FRIB energy upgrade design accelerating gradient (Eacc) of 17.5 MV/m, and Q0 of 1.2×1010 at a maximum gradient of 26 MV/m, where the gradient was ultimately limited by the available rf amplifier power available for this test. These results validate the potential of the novel 644 MHz medium-β cavity design and motivate its use in future high-Q0 development work. The multipacting band, which exists at Eacc≈10 MV/m, was completely conditioned in the continuous-wave mode. We also observed that combining the 48 h 120 °C baking treatment with EP did not improve the EP-only cavity performance at 2 K due to increased residual resistance (R0) and increased medium-field Q-slope. BCP+baking was also found to produce lower Q0 in this cavity due to increased medium-field Q-slope. The mechanical modes of this cavity were measured at room temperature, verifying that the quality factor of the dominant "accordion"mechanical mode these medium-β cavities are particularly vulnerable to is close to that of the 1.3 GHz TESLA cavities. Thus, this mode arising from the novel geometry of these cavities is shown to not be of excessive concern for resonance control.

AB - We present the first rf studies of the medium-β superconducting radio frequency (SRF) elliptical cavities designed for Michigan State University's Facility for Rare Isotope Beams (FRIB) energy upgrade linac. The proposed energy upgrade for this continuous-wave (CW) superconducting linac will double the final beam energy from 200 to 400 MeV/u for the heaviest uranium ions within the 80 m of space available in the FRIB tunnel. Two prototype βopt=0.65 644 MHz five-cell elliptical SRF cavities were fabricated and tested to validate the novel cavity design with three conventional rf recipes: (1) Electropolishing (EP-only), (2) EP+48 h 120 °C bake (EP+baking), and (3) Buffered chemical Polishing+48 h 120 °C bake (BCP+baking). The EP-only recipe achieved a 2 K quality factor (Q0) of 2.3×1010 at the FRIB energy upgrade design accelerating gradient (Eacc) of 17.5 MV/m, and Q0 of 1.2×1010 at a maximum gradient of 26 MV/m, where the gradient was ultimately limited by the available rf amplifier power available for this test. These results validate the potential of the novel 644 MHz medium-β cavity design and motivate its use in future high-Q0 development work. The multipacting band, which exists at Eacc≈10 MV/m, was completely conditioned in the continuous-wave mode. We also observed that combining the 48 h 120 °C baking treatment with EP did not improve the EP-only cavity performance at 2 K due to increased residual resistance (R0) and increased medium-field Q-slope. BCP+baking was also found to produce lower Q0 in this cavity due to increased medium-field Q-slope. The mechanical modes of this cavity were measured at room temperature, verifying that the quality factor of the dominant "accordion"mechanical mode these medium-β cavities are particularly vulnerable to is close to that of the 1.3 GHz TESLA cavities. Thus, this mode arising from the novel geometry of these cavities is shown to not be of excessive concern for resonance control.

UR - https://www.scopus.com/pages/publications/85120541045

U2 - 10.1103/PhysRevAccelBeams.24.112003

DO - 10.1103/PhysRevAccelBeams.24.112003

M3 - Article

AN - SCOPUS:85120541045

SN - 2469-9888

VL - 24

JO - Physical Review Accelerators and Beams

JF - Physical Review Accelerators and Beams

IS - 11

M1 - 112003

ER -

Medium-velocity superconducting cavity for high accelerating gradient continuous-wave hadron linear accelerators

Abstract

Funding

Access to Document

Other files and links

Fingerprint

Cite this