Microwave measurements of the BNL/SLAC/UCLA 1.6 cell photocathode RF gun

Palmer, D.T.; Miller, R.H.; Winick, H.; Wang, X.J.; Batchelor, K.; Woodle, M.; Ben‐Zvi, I.

doi:10.1109/pac.1995.505102

Cited by 33 publications

(29 citation statements)

References 4 publications

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“…The setup we consider throughout this section is depicted in Fig. 4 and consists of a typical 1 þ 1 2 -cell BNL/SLAC/UCLA S-band rf-gun operating at 2.856 GHz surrounded by a solenoidal lens [22]. The large (∼140 MV=m) acceleration gradients in the gun help preserve larger charge densities compared with, e.g., L-band guns.…”

Section: Photoemission Of Optimal Shapes Via Laser-shapingmentioning

confidence: 99%

Tailored electron bunches with smooth current profiles for enhanced transformer ratios in beam-driven acceleration

Lémery

Piot

2015

Phys. Rev. ST Accel. Beams

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Collinear high-gradient OðGV=mÞ beam-driven wakefield methods for charged-particle acceleration could be critical to the realization of compact, cost-efficient, accelerators, e.g., in support of TeV-scale lepton colliders or multiple-user free-electron laser facilities. To make these options viable, the high accelerating fields need to be complemented with large transformer ratios >2, a parameter characterizing the efficiency of the energy transfer between a wakefield-exciting "drive" bunch to an accelerated "witness" bunch. While several potential current distributions have been discussed, their practical realization appears challenging due to their often discontinuous nature. In this paper we propose several alternative continuously differentiable (smooth) current profiles which support enhanced transformer ratios. We especially demonstrate that one of the devised shapes can be implemented in a photo-emission electron source by properly shaping the photocathode-laser pulse. We finally discuss a possible superconducting linear-accelerator concept that could produce shaped drive bunches at high-repetition rates to drive a dielectric-wakefield accelerator with accelerating fields on the order of ∼60 MV=m and a transformer ratio ∼5 consistent with a recently proposed multiuser free-electron laser facility.

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Section: Photoemission Of Optimal Shapes Via Laser-shapingmentioning

confidence: 99%

Tailored electron bunches with smooth current profiles for enhanced transformer ratios in beam-driven acceleration

Lémery

Piot

2015

Phys. Rev. ST Accel. Beams

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“…The RF gun installed at the GTF is a 1.6 cell, S-band, photocathode, rf gun with cavity symmetrization to remove dipole fields and the associated emittance growth [4].…”

Section: Methodsmentioning

confidence: 99%

“…The YAG screen is 1.2 m downstream of the last quadrupole and is installed at normal incidence to the e-beam. 4 The light is extracted through a standard viewport and sent to an analog CCD camera.…”

Section: Methodsmentioning

confidence: 99%

Transverse-emittance measurements on an S-band photocathode RF electron gun

Schmerge¹,

Bolton²,

Clendenin³

et al. 2002

Nuclear Instruments and Methods in Physics Research Section A:

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“…Nonaxisymmetric structure excites multipole field components, such as the dipole, quadrupole, and octopole, which kick the beam time dependently, leading to the emittance growth [1]. While removal of the kick from the fundamental mode is difficult [3], minimization of the multipole rf field has been investigated and implemented in the design of the state-ofthe-art photocathode rf gun [4,5], which aims to produce high-brightness electron beams.…”

Section: Introductionmentioning

confidence: 99%

“…However, the one-sided coupling scheme causes asymmetry in the electromagnetic field inside the cavity. This asymmetric field can be expanded into multipole fields [4,7]. In particular, the dipole and quadrupole fields are the main causes of emittance growth.…”

Section: Introductionmentioning

confidence: 99%

Emittance growth due to multipole transverse magnetic modes in an rf gun

Chae

Hong

Parc

et al. 2011

Phys. Rev. ST Accel. Beams

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Cylindrical asymmetry of an rf gun cavity excites the multipole rf field which will result in emittance growth of electron beams. With demanding of electron beams of ultralow emittance for the x-ray free electron laser, it is necessary to study the effect of the multipole rf field to the emittance growth and to eliminate the multipole field effect on electron beam emittance in an rf gun. In this paper, we present both theoretical analysis and numerical simulations of the multipole field effect to the emittance growth. We proposed a four-hole scheme to minimize the emittance growth from the multipole field.

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Microwave measurements of the BNL/SLAC/UCLA 1.6 cell photocathode RF gun

Cited by 33 publications

References 4 publications

Tailored electron bunches with smooth current profiles for enhanced transformer ratios in beam-driven acceleration

Tailored electron bunches with smooth current profiles for enhanced transformer ratios in beam-driven acceleration

Transverse-emittance measurements on an S-band photocathode RF electron gun

Emittance growth due to multipole transverse magnetic modes in an rf gun

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