The superconducting radio-frequency linear accelerator components for the European spallation source : First test results

Darve, C.; Elias, N.; Schlander, F.; Bosland, P.; Arcambal, C.; Cenni, E.; Devanz, G.; Peauger, F.; Olry, G.; Bousson, S.; Duthil, P.; Olivier, G.; Reynet, D.; Costanza, G.; Ruber, R.; Li, H.; Santiago Kern, R.

The superconducting radio-frequency linear accelerator components for the European spallation source : First test results

Mark

Darve, C. ^LU ; Elias, N. ; Schlander, F. ; Bosland, P. ; Arcambal, C. ; Cenni, E. ; Devanz, G. ; Peauger, F. ; Olry, G. and Bousson, S. , et al. (2016) 28th International Linear Accelerator Conference, LINAC 2016 In Proceedings of the 28th Linear Accelerator Conference, LINAC 2016 p.651-656

Abstract: The European Spallation Source requires a pulsed linac with an average beam power on the target of 5 MW, which is about five times higher than the most powerful spallation source in operation today. Over 97 % of the acceleration occurs in superconducting cavities. ESS will be the first accelerator to employ double spoke cavities to accelerate beam. Accelerating gradients of 9 MV/meter is required in the spoke section. The spoke section will be followed by 36 elliptical 704 MHz cavities with a geometrical E of 0.67 and elliptical 704 MHz cavities with a geometrical E of 0.86. Accelerating gradients of 16.7 and 20 MV/m are required in the medium and high-E elliptical cavities, respectively. Initial gradient test results will be presented... (More); The European Spallation Source requires a pulsed linac with an average beam power on the target of 5 MW, which is about five times higher than the most powerful spallation source in operation today. Over 97 % of the acceleration occurs in superconducting cavities. ESS will be the first accelerator to employ double spoke cavities to accelerate beam. Accelerating gradients of 9 MV/meter is required in the spoke section. The spoke section will be followed by 36 elliptical 704 MHz cavities with a geometrical E of 0.67 and elliptical 704 MHz cavities with a geometrical E of 0.86. Accelerating gradients of 16.7 and 20 MV/m are required in the medium and high-E elliptical cavities, respectively. Initial gradient test results will be presented in which results exceed expected requirements.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/949a5c60-f15f-4165-9431-ed1920b6eced

author

Darve, C. ^LU ; Elias, N. ; Schlander, F. ; Bosland, P. ; Arcambal, C. ; Cenni, E. ; Devanz, G. ; Peauger, F. ; Olry, G. and Bousson, S. , et al. (More)

Darve, C. ^LU ; Elias, N. ; Schlander, F. ; Bosland, P. ; Arcambal, C. ; Cenni, E. ; Devanz, G. ; Peauger, F. ; Olry, G. ; Bousson, S. ; Duthil, P. ; Olivier, G. ; Reynet, D. ; Costanza, G. ^LU ; Ruber, R. ; Li, H. and Santiago Kern, R. (Less)

organization

publishing date

2016

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Accelerator Physics and Instrumentation

host publication

Proceedings of the 28th Linear Accelerator Conference, LINAC 2016

series title

Proceedings of the 28th Linear Accelerator Conference, LINAC 2016

pages

6 pages

publisher

JACoW Publishing

conference name

28th International Linear Accelerator Conference, LINAC 2016

conference location

East Lansing, United States

conference dates

2016-09-25 - 2016-09-30

external identifiers

scopus:85086307141

ISBN

9783954501694

language

English

LU publication?

yes

id

949a5c60-f15f-4165-9431-ed1920b6eced

date added to LUP

2020-06-26 11:04:22

date last changed

2022-02-01 07:00:58

@inproceedings{949a5c60-f15f-4165-9431-ed1920b6eced,
  abstract     = {{<p>The European Spallation Source requires a pulsed linac with an average beam power on the target of 5 MW, which is about five times higher than the most powerful spallation source in operation today. Over 97 % of the acceleration occurs in superconducting cavities. ESS will be the first accelerator to employ double spoke cavities to accelerate beam. Accelerating gradients of 9 MV/meter is required in the spoke section. The spoke section will be followed by 36 elliptical 704 MHz cavities with a geometrical E of 0.67 and elliptical 704 MHz cavities with a geometrical E of 0.86. Accelerating gradients of 16.7 and 20 MV/m are required in the medium and high-E elliptical cavities, respectively. Initial gradient test results will be presented in which results exceed expected requirements.</p>}},
  author       = {{Darve, C. and Elias, N. and Schlander, F. and Bosland, P. and Arcambal, C. and Cenni, E. and Devanz, G. and Peauger, F. and Olry, G. and Bousson, S. and Duthil, P. and Olivier, G. and Reynet, D. and Costanza, G. and Ruber, R. and Li, H. and Santiago Kern, R.}},
  booktitle    = {{Proceedings of the 28th Linear Accelerator Conference, LINAC 2016}},
  isbn         = {{9783954501694}},
  language     = {{eng}},
  pages        = {{651--656}},
  publisher    = {{JACoW Publishing}},
  series       = {{Proceedings of the 28th Linear Accelerator Conference, LINAC 2016}},
  title        = {{The superconducting radio-frequency linear accelerator components for the European spallation source : First test results}},
  year         = {{2016}},
}

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The superconducting radio-frequency linear accelerator components for the European spallation source : First test results