Effects of high solenoidal magnetic fields on rf accelerating cavities

Moretti, A.; Qian, Z.; Norem, J.; Torun, Y.; Li, D.; Zisman, Michael S.

doi:10.1103/physrevstab.8.072001

Cited by 55 publications

(57 citation statements)

References 6 publications

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“…The system was then reramped with the solenoid on. Observations with this 11.424 GHz vacuum structure can be compared to 800 MHz gas filled structure results [43]. They are similar in that the conditioning was observed to be less stable and required longer recovery with a magnetic field present, but significantly different in that the breakdown threshold appeared independent of magnetic field.…”

Section: Rf Gunsupporting

confidence: 55%

Performance of a second generation X -band rf photoinjector

Marsh

Anderson

et al. 2018

Phys. Rev. Accel. Beams

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rf photoinjectors produce incredibly bright electron beams enabling advanced photon science applications such as the current generation of free electron lasers and high energy x-rays and gammarays via laser-Compton scattering. A second generation 5.59 cell X-band rf gun has been developed, installed, conditioned, commissioned, tuned, and used to produce laser-Compton x-rays and multiple electron bunches. A charge per bunch from a few pC to 500 pC has been measured, consistent with a quantum efficiency of 5 × 10 −5 using a 263 nm 10 Hz photocathode drive laser. The rf gun has operated close to design performance at high gradient, and more reliably at lower gradient achieving a root mean square normalized emittance of 0.3 mm mrad at both 80 pC at 185 MV=m, and 40 pC at 165 MV=m. Thermal emittance is estimated at 0.55 mm mrad=mm. Energy spread of 0.03% has been achieved. These results agree very well with modeling predictions for the operating conditions under which the measurements were made. Unusually disruptive breakdowns were observed with an applied magnetic field of 0.5T used for emittance compensation.

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Section: Rf Gunsupporting

confidence: 55%

Performance of a second generation X -band rf photoinjector

Marsh

Anderson

et al. 2018

Phys. Rev. Accel. Beams

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show abstract

“…There is empirical evidence that magnetic fields overlapping RF cavities, as present in the muon front-end, may induce breakdown in the cavities [273,274]. The performance of the muon front-end using a reduced field has been explored using ICOOL.…”

Section: Effect Of Magnetic Field On Rf Gradientmentioning

confidence: 99%

“…The presence of magnetic fields overlapping RF cavities has been identified as a technical risk that may reduce the capture efficiency of the muon front-end due to a reduction in the peak gradient that can be achieved in the RF cavities [273,274]. Three alternative lattices have been proposed for the cooling section to mitigate this risk.…”

Section: Alternative Lattices For the Muon Front-endmentioning

confidence: 99%

Interim Design Report

Abrams¹,

Agarwalla²,

Alekou³

et al. 2011

Self Cite

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“…There is some evidence that the presence of these strong fields may limit the RF cavities by a factor of roughly 2, although experiments have been limited by a number of factors and further work is needed [2]. Several schemes have been investigated to work around this problem.…”

Section: A Possible Problemmentioning

confidence: 99%

Design for a Muon Front End with Magnetically Shielded RF Cavities

Rogers¹

2010

AIP Conference Proceedings

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Effects of high solenoidal magnetic fields on rf accelerating cavities

Cited by 55 publications

References 6 publications

Performance of a second generation X -band rf photoinjector

Performance of a second generation X -band rf photoinjector

Interim Design Report

Design for a Muon Front End with Magnetically Shielded RF Cavities

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