Increasing the intensity of an induction accelerator and reduction of the beam breakup instability
A 7 cm cathode has been deployed for use on a 3.8 MV, 80 ns (FWHM) Blumlein, to increase the extracted electron current from the nominal 1.7 to 2.9 kA. The intense relativistic electron bunch is accelerated and transported through a nested solenoid and ferrite induction core lattice consisting of 64...
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American Physical Society
2014-03-01
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| Series: | Physical Review Special Topics. Accelerators and Beams |
| Online Access: | http://doi.org/10.1103/PhysRevSTAB.17.030101 |
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doaj-2b2d8bf6f7034356bd7857c60a8422592020-11-25T00:51:44ZengAmerican Physical SocietyPhysical Review Special Topics. Accelerators and Beams1098-44022014-03-0117303010110.1103/PhysRevSTAB.17.030101Increasing the intensity of an induction accelerator and reduction of the beam breakup instabilityJ. E. ColemanD. C. MoirC. A. EkdahlJ. B. JohnsonB. T. McCuistianG. W. SullivanM. T. CrawfordA 7 cm cathode has been deployed for use on a 3.8 MV, 80 ns (FWHM) Blumlein, to increase the extracted electron current from the nominal 1.7 to 2.9 kA. The intense relativistic electron bunch is accelerated and transported through a nested solenoid and ferrite induction core lattice consisting of 64 elements, exiting the accelerator with a nominal energy of 19.8 MeV. The principal objective of these experiments is to quantify the space-charge limitations on the beam quality, its coupling with the beam breakup (BBU) instability, and provide an independent validation of the BBU theory in a higher current regime, I>2 kA. Time resolved centroid measurements indicate a reduction in BBU >10× with simply a 50% increase in the average B-field used to transport the beam through the accelerator. A qualitative comparison of experimental and calculated results are presented, which include time resolved current density distributions, radial BBU amplitude relative to the calculated beam envelope, and frequency analyzed BBU amplitude with different accelerator lattice tunes.http://doi.org/10.1103/PhysRevSTAB.17.030101 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
J. E. Coleman D. C. Moir C. A. Ekdahl J. B. Johnson B. T. McCuistian G. W. Sullivan M. T. Crawford |
| spellingShingle |
J. E. Coleman D. C. Moir C. A. Ekdahl J. B. Johnson B. T. McCuistian G. W. Sullivan M. T. Crawford Increasing the intensity of an induction accelerator and reduction of the beam breakup instability Physical Review Special Topics. Accelerators and Beams |
| author_facet |
J. E. Coleman D. C. Moir C. A. Ekdahl J. B. Johnson B. T. McCuistian G. W. Sullivan M. T. Crawford |
| author_sort |
J. E. Coleman |
| title |
Increasing the intensity of an induction accelerator and reduction of the beam breakup instability |
| title_short |
Increasing the intensity of an induction accelerator and reduction of the beam breakup instability |
| title_full |
Increasing the intensity of an induction accelerator and reduction of the beam breakup instability |
| title_fullStr |
Increasing the intensity of an induction accelerator and reduction of the beam breakup instability |
| title_full_unstemmed |
Increasing the intensity of an induction accelerator and reduction of the beam breakup instability |
| title_sort |
increasing the intensity of an induction accelerator and reduction of the beam breakup instability |
| publisher |
American Physical Society |
| series |
Physical Review Special Topics. Accelerators and Beams |
| issn |
1098-4402 |
| publishDate |
2014-03-01 |
| description |
A 7 cm cathode has been deployed for use on a 3.8 MV, 80 ns (FWHM) Blumlein, to increase the extracted electron current from the nominal 1.7 to 2.9 kA. The intense relativistic electron bunch is accelerated and transported through a nested solenoid and ferrite induction core lattice consisting of 64 elements, exiting the accelerator with a nominal energy of 19.8 MeV. The principal objective of these experiments is to quantify the space-charge limitations on the beam quality, its coupling with the beam breakup (BBU) instability, and provide an independent validation of the BBU theory in a higher current regime, I>2 kA. Time resolved centroid measurements indicate a reduction in BBU >10× with simply a 50% increase in the average B-field used to transport the beam through the accelerator. A qualitative comparison of experimental and calculated results are presented, which include time resolved current density distributions, radial BBU amplitude relative to the calculated beam envelope, and frequency analyzed BBU amplitude with different accelerator lattice tunes. |
| url |
http://doi.org/10.1103/PhysRevSTAB.17.030101 |
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