Hot electron enhanced photoemission from laser fabricated plasmonic photocathodes

Autor: Martinez-Calderon Miguel, Groussin Baptiste, Bjelland Victoria, Chevallay Eric, Fedosseev Valentin N., Himmerlich Marcel, Lorenz Pierre, Manjavacas Alejandro, Marsh Bruce A., Neupert Holger, Rossel Ralf E., Wuensch Walter, Granados Eduardo
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: Nanophotonics, Vol 13, Iss 11, Pp 1975-1983 (2023)
Druh dokumentu: article
ISSN: 2192-8614
DOI: 10.1515/nanoph-2023-0552
Popis: Photocathodes are key elements in high-brightness electron sources and ubiquitous in the operation of large-scale accelerators, although their operation is often limited by their quantum efficiency and lifetime. Here, we propose to overcome these limitations by utilizing direct-laser nanostructuring techniques on copper substrates, improving their efficiency and robustness for next-generation electron photoinjectors. When the surface of a metal is nanoengineered with patterns and particles much smaller than the optical wavelength, it can lead to the excitation of localized surface plasmons that produce hot electrons, ultimately contributing to the overall charge produced. In order to quantify the performance of laser-produced plasmonic photocathodes, we measured their quantum efficiency in a typical electron gun setup. Our experimental results suggest that plasmon-induced hot electrons lead to a significant increase in quantum efficiency, showing an overall charge enhancement factor of at least 4.5 and up to 25. A further increase in their efficiency was observed when combined with semiconductor thin-films deposited over the laser processed surfaces, pointing at potential pathways for further optimization. We demonstrate that simple laser-produced plasmonic photocathodes outperform standard metallic photocathodes, and can be directly produced in-situ at the electron gun level in vacuum environments and without any disruptive intervention. This approach could lead to unprecedented efficient and continuous operation of electron sources, and is useful in many applications across scientific disciplines requiring high average and peak current electron beams.
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