Fetah Benabid

Papers

1

Total Citations

3

H-Index

1

About

Fetah Benabid is a pioneering physicist whose research lies at the intersection of photonics, laser-matter interaction, and accelerator technology. He is best known for his groundbreaking work on laser-induced surface structuring to suppress electron multipacting in particle accelerators—a critical challenge for high-energy physics. His most cited paper (2023) introduces a picosecond pulsed 532 nm laser system capable of roughening and reducing the secondary electron yield (SEY) of inner surfaces in tubes up to 15 meters long. This innovation directly addresses the problem of electron cloud buildup in vacuum pipes, offering a scalable solution for next-generation accelerators. With 3 citations to date, this work has already attracted attention from the accelerator community. Benabid’s contributions bridge fundamental laser physics and applied engineering, demonstrating how precise surface texturing can dramatically improve device performance. His research not only advances particle accelerator reliability but also opens new avenues for laser processing in confined geometries. For students and researchers, Benabid exemplifies how photonics can solve real-world problems in extreme environments, making his work essential reading for those interested in laser applications, surface science, or accelerator physics.

Research Focus

Key Achievements

1
H-Index
1
Papers
3
Total Citations
3
Avg Citations/Paper
🏆 Most Cited Paper
Picosecond pulsed 532 nm laser system for roughening and secondary electron yield reduction of inner surfaces of up to 15 m long tubes
3 citations · 2023
📈 Most Prolific Year: 2023 (1 Papers)
🤝 Key Collaborators: 11

Top Papers

  1. 1

Key Collaborators

Contact & Links

Available for collaboration
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