Yichao Jing scite author profile

High brightness, high charge electron beams are critical for a number of advanced accelerator applications. The initial emittance of the electron beam, which is determined by the mean transverse energy (MTE) and laser spot size, is one of the most important parameters determining the beam quality. The bialkali photocathodes illuminated by a visible laser have the advantages of high quantum efficiency (QE) and low MTE. Furthermore, Superconducting Radio Frequency (SRF) guns can operate in the continuous wave (CW) mode at high accelerating gradients, e.g. with significant reduction of the laser spot size at the photocathode. Combining the bialkali photocathode with the SRF gun enables generation of high charge, high brightness, and possibly high average current electron beams. However, integrating the high QE semiconductor photocathode into the SRF guns has been challenging. In this article, we report on the development of bialkali photocathodes for successful operation in the SRF gun with months-long lifetime while delivering CW beams with nano-coulomb charge per bunch. This achievement opens a new era for high charge, high brightness CW electron beams.

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Compensating effect of the coherent synchrotron radiation in bunch compressors

Jing

Hao

Litvinenko

2013

Phys. Rev. ST Accel. Beams

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Typical bunch compression for a high-gain free-electron laser (FEL) requires a large compression ratio. Frequently, this compression is distributed in multiple stages along the beam transport line. However, for a high-gain FEL driven by an energy recovery linac (ERL), compression must be accomplished in a single strong compressor located at the beam line's end; otherwise the electron beam would be affected severely by coherent synchrotron radiation (CSR) in the ERL's arcs. In such a scheme, the CSR originating from the strong compressors could greatly degrade the quality of the electron beam. In this paper, we present our design for a bunch compressor that will limit the effect of CSR on the e-beam's quality. We discuss our findings from a study of such a compressor, and detail its potential for an FEL driven by a multipass ERL developed for the electron-Relativistic Heavy Ion Collider.

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High-Brightness Continuous-Wave Electron Beams from Superconducting Radio-Frequency Photoemission Gun

Petrushina¹,

Litvinenko²,

Jing³

et al. 2020

Phys. Rev. Lett.

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CW photoinjectors operating at high accelerating gradients promise to revolutionize many areas of science and applications. They can establish the basis for a new generation of monochromatic Xray free electron lasers, high brightness hadron beams, or a new generation of microchip production.In this letter we report on the record-performing superconducting RF electron gun with CsK2Sb photocathode. The gun is generating high charge electron bunches (up to 10 nC/bunch) and low transverse emittances, while operating for months with a single photocathode. This achievement opens a new era in generating high-power beams with a very high average brightness.

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Yichao Jing

eRHIC Design Study: An Electron-Ion Collider at BNL

Long lifetime of bialkali photocathodes operating in high gradient superconducting radio frequency gun

Compensating effect of the coherent synchrotron radiation in bunch compressors

High-Brightness Continuous-Wave Electron Beams from Superconducting Radio-Frequency Photoemission Gun

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