Active bialkali photocathodes on free-standing graphene substrates
Hisato Yamaguchi, Fangze Liu, Jeffrey DeFazio, Claudia W. Narvaez, Villarrubia, Daniel Finkenstadt, Andrew Shabaev, Kevin L. Jensen, Vitaly, Pavlenko, Michael Mehl, Sam Lambrakos, Gautam Gupta, Aditya D. Mohite, Nathan, A. Moody

TL;DR
This study demonstrates the growth and characterization of high-efficiency bialkali photocathodes on free-standing graphene, showing potential for enhanced lifetime and stability in accelerator applications.
Contribution
First successful integration of bialkali photocathodes on free-standing graphene substrates, enabling new insights into their spectral response and stability.
Findings
Photocathodes on graphene show increased work function.
Spectral response is comparable to traditional substrates.
Enhanced stability and potential for longer lifetime.
Abstract
The hexagonal structure of graphene gives rise to the property of gas impermeability, motivating its investigation for a new application: protection of semiconductor photocathodes in electron accelerators. These materials are extremely susceptible to degradation in efficiency through multiple mechanisms related to contamination from the local imperfect vacuum environment of the host photoinjector. Few-layer graphene has been predicted to permit a modified photoemission response of protected photocathode surfaces, and recent experiments of single-layer graphene on copper have begun to confirm these predictions for single crystal metallic photocathodes. Unlike metallic photoemitters, the integration of an ultra-thin graphene barrier film with conventional semiconductor photocathode growth processes is not straightforward. A first step toward addressing this challenge is the growth and…
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Taxonomy
TopicsPhotocathodes and Microchannel Plates · Quantum and electron transport phenomena · Graphene research and applications
