Communications Physics (May 2024)

Confirming the theoretical foundation of steady-state microbunching

  • Arnold Kruschinski,
  • Xiujie Deng,
  • Jörg Feikes,
  • Arne Hoehl,
  • Roman Klein,
  • Ji Li,
  • Markus Ries,
  • Alexander Chao

DOI
https://doi.org/10.1038/s42005-024-01657-y
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract Steady-State Microbunching (SSMB) has been proposed as a concept to generate coherent synchrotron radiation at an electron storage ring. SSMB promises to supply kilowatt level average power radiation in the extreme ultraviolet regime, meeting the power level demands for lithography applications that presently cannot be fulfilled by established accelerator technologies. SSMB is under theoretical and experimental study, building on a proof-of-principle (PoP) experiment at the Metrology Light Source which previously showed the viability of the idea. Here we report experimental findings from systematic studies in the ongoing SSMB PoP experiment, where microbunching is generated from an energy modulation imposed by a laser of wavelength 1064 nm. The results confirm the expected dependence of the microbunching process on modulation amplitude and show that the influence of transverse-longitudinal coupling dynamics is as predicted. This confirmation of key parts of the SSMB theory establishes a solid footing for continuing the proof-of-principle efforts towards the goal of constructing a prototype SSMB light source facility.