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@unpublished{feikes:ipac2021-moxb01,
author = {J. Feikes and A. Chao and X.J. Deng and A. Hoehl and W.-H. Huang and R. Klein and A. Kruschinski and J. Li and A.N. Matveenko and Y. Petenev and M. Ries and C.-X. Tang and L.X. Yan},
% author = {J. Feikes and A. Chao and X.J. Deng and A. Hoehl and W.-H. Huang and R. Klein and others},
% author = {J. Feikes and others},
title = {{Progress Towards Realisation of Steady-State Microbunching at the Metrology Light Source}},
booktitle = {Proc. IPAC'21},
language = {english},
intype = {presented at the},
series = {International Particle Accelerator Conference},
number = {12},
venue = {Campinas, SP, Brazil},
publisher = {JACoW Publishing, Geneva, Switzerland},
month = {08},
year = {2021},
note = {presented at IPAC'21 in Campinas, SP, Brazil, unpublished},
abstract = {{Coherent radiation is a powerful scheme for storage-ring-based synchrotron radiation sources as its intensity increases with the square of the number of radiating electrons. Formation of bunches or sub-bunches shorter than the radiation wavelength, i.e., microbunching, is necessary for the radiation from different electrons to add in phase and therefore cohere. Recently at the MLS it has been shown that in dedicated isochronous optics an electron beam energy modulation induced by an externally applied 1064-nm-wavelength laser in an undulator leads to the formation of sub-um microbunches one turn later*, providing the basis for the implementation of steady-state microbunching in electron storage rings to generate high-repetition, high-power coherent radiation. Here we report on the recent progress and continuing development of this experiment.}},
}