Breakdown phenomena in high-power klystrons

Vlieks, A.E.; Allen, M. A.; Callin, R.S.; Fowkes, W.R.; Hoyt, E. W.; Lebacqz, J. V.; Lee, T.G.

doi:10.1109/14.46331

Cited by 46 publications

(11 citation statements)

References 3 publications

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“…The higher frequencies chosen for the normal-conducting accelerating structures are based on the assumption that the achievable accelerating gradient increases roughly in proportion to the rf frequency, as would be the case if the field gradient is limited by rf breakdown or trapping of dark current generated by field emission [15,16,17].…”

Section: Perspectivementioning

confidence: 99%

Tutorial on linear colliders

Zimmermann¹

2001

AIP Conference Proceedings

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Proceeding from the collision point towards the source, we discuss purpose and design concepts of the various linear-collider subsystems, as well as important mechanisms of emittance dilution, beam diagnostics, and advanced tuning methods. In particular, we address beamstrahlung, linac emittance degradation due to dispersion and wake fields, scaling of damping-ring parameters with collider energy, fast beam-ion and electron-cloud instabilities, coherent synchrotron radiation, and rf guns. Five case studies are examined in detail.

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Section: Perspectivementioning

confidence: 99%

Tutorial on linear colliders

Zimmermann¹

2001

AIP Conference Proceedings

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“…The energy going through the layers is modeled as a series of contact resistances as shown in Equation 9.4.…”

Section: Yields Equation 93mentioning

confidence: 99%

Theoretical Predictions and Experimental Assessments of the Performance of Alumina RF Windows

Cummings¹

1998

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“…[1] In Dielectric failure, the bulk material cannot stand off the electric field gradients across the material and a puncture results. In thermal failure, excessive thermal gradients along the window surface cause the ceramic to crack.…”

Section: Introductionmentioning

confidence: 99%

High Power Window Tests at SLAC

Vlieks¹

2002

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The successful design of high power windows play an essential role in RF power source development in accelerator programs such as the Next Linear Collider (NLC). Different window design approaches have been developed at several institutions to develop a successful high power window design. Some of the design considerations include the utilization of low loss RF modes, multiple RF modes and different window materials.In the past year some of these designs have been tested at SLAC using a pair of 50+ MW X-band klystrons as power sources. This permitted testing to power levels exceeding 100 MW at pulse widths ranging from 0.15 to 1.5 microseconds. We will present results of these tests including their RF performance and their optical and x-ray emission characteristics as a function of pulse width and power levels.

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Breakdown phenomena in high-power klystrons

Cited by 46 publications

References 3 publications

Tutorial on linear colliders

Tutorial on linear colliders

Theoretical Predictions and Experimental Assessments of the Performance of Alumina RF Windows

High Power Window Tests at SLAC

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