铜光电阴极本征发射度随射频场的测量

Physical Review Special Topics-accelerators and Beams Pub Date : 2015-06-22 DOI:10.1103/PHYSREVSTAB.18.063401

E. Prat, S. Bettoni, H. Braun, M. Divall, T. Schietinger

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引用次数: 7

摘要

射频(rf)光注入器用于产生高亮度电子束，具有广泛的应用。由于其出色的光束质量，它们特别适合作为x射线自由电子激光器(FELs)的光源。束流发射度受阴极固有发射度的显著影响，是FELs的基础，因为它对激光性能有很强的影响，并决定了设备的长度和成本。本文给出了铜光电阴极的本征发射率随射频场的函数的测量结果。我们的测量结果与理论预期相符，表明可以通过减小阴极处的射频场来降低本征发射度。我们得到归一化的本征发射率低至350nm = mm，这是射频光注入器中测量到的最低值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Measurements of intrinsic emittance dependence on rf field for copper photocathodes

Radio-frequency (rf) photoinjectors are used to generate high-brightness electron beams for a wide range of applications. Because of their outstanding beam quality, they are particularly well-suited as sources for X-ray free-electron lasers (FELs). The beam emittance, which is significantly influenced by the intrinsic emittance of the cathode, is fundamental for FELs, since it has a strong impact on the lasing performance and it defines the length and cost of the facility. In this paper we present measurements of the intrinsic emittance as a function of the rf field for a copper photocathode. Our measurements match with the theoretical expectations, showing that the intrinsic emittance can be reduced by decreasing the rf field at the cathode. We obtained normalized intrinsic emittances down to 350 nm = mm, the lowest values ever measured in a rf photoinjector.

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来源期刊

Physical Review Special Topics-accelerators and Beams 物理-物理：核物理

自引率

0.00%

发文量

审稿时长

3-8 weeks

期刊介绍： Physical Review Special Topics - Accelerators and Beams (PRST-AB), is a peer reviewed, purely electronic journal, distributed without charge to readers and funded by contributions from national laboratories. It covers the full range of accelerator science and technology: subsystem and component technologies, beam dynamics; accelerator applications; and design, operation, and improvement of accelerators used in science and industry. This includes accelerators for high-energy and nuclear physics, synchrotron radiation production, spallation neutron sources, medical therapy, and intense beam applications.