Issue 9, 2023

Review of photocathodes for electron beam sources in particle accelerators

Abstract

This paper compares different photocathodes that are applicable for electron injector systems and summarizes the development in cathode technology in the last years. The photocathode is one of the key components of the facilities that provides electrons for many research experiments. Typically, a high efficiency and a long operation time are desired, thus the photocathode needs to be robust against any rest gases occasionally available during operation. Low thermal emittance and fast response time are special requirements for the accelerator community. These parameters are commonly used to compare the various cathode materials. Metals and plasmon-enhanced materials emit electrons from the near surface, whereas semiconductors emit photoelectrons mostly from the bulk region. We compare metal photocathodes such as magnesium, copper and lead, with semiconductor photocathodes such as cesium telluride, antimonide photocathodes and III–V semiconductor photocathodes. GaAs and its typical application for the generation of spin-polarized electrons is discussed and special attention has been paid to the emerging GaN as a potential novel photocathode. The above mentioned state-of-the-art cathodes are compared regarding their preparation approaches, quantum efficiency, lifetime, response time and their status of application. This work is aimed to provide a guideline for particle accelerator researchers in their choice of the cathode material. Thermionic cathodes and field emission cathodes are not discussed in this review.

Graphical abstract: Review of photocathodes for electron beam sources in particle accelerators

Article information

Article type
Review Article
Submitted
04 9 2022
Accepted
04 2 2023
First published
17 2 2023
This article is Open Access
Creative Commons BY-NC license

J. Mater. Chem. C, 2023,11, 3162-3179

Review of photocathodes for electron beam sources in particle accelerators

J. Schaber, R. Xiang and N. Gaponik, J. Mater. Chem. C, 2023, 11, 3162 DOI: 10.1039/D2TC03729G

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