Direct Observation of Arrival Time Jitter for RF Compressed Femtosecond Electron Bunches by Ponderomotive Scattering

Meng Gao; Meng Gao; Hubert Jean-Ruel; Hubert Jean-Ruel; Ryan R. Cooney; Ryan R. Cooney; Jonathan Stampe; Mark De Jong; German Sciaini; German Sciaini; Gustavo Moriena; Gustavo Moriena; R.J. Dwayne Miller; R.J. Dwayne Miller

doi:10.1364/ICUSD.2012.IW1D.6

Research in Optical Sciences
OSA Technical Digest (Optica Publishing Group, 2012),
paper IW1D.6
•https://doi.org/10.1364/ICUSD.2012.IW1D.6

Direct Observation of Arrival Time Jitter for RF Compressed Femtosecond Electron Bunches by Ponderomotive Scattering

Meng Gao, Hubert Jean-Ruel, Ryan R. Cooney, Jonathan Stampe, Mark De Jong, German Sciaini, Gustavo Moriena, and R.J. Dwayne Miller

International Conference on Ultrafast Structural Dynamics 2012

Berlin Germany
19–21 March 2012
ISBN: 978-1-55752-939-8

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Structure Probes and Methods (IW1D)

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M. Gao, H. Jean-Ruel, R. R. Cooney, J. Stampe, M. De Jong, G. Sciaini, G. Moriena, and R. J. D. Miller, "Direct Observation of Arrival Time Jitter for RF Compressed Femtosecond Electron Bunches by Ponderomotive Scattering," in Research in Optical Sciences, OSA Technical Digest (Optica Publishing Group, 2012), paper IW1D.6.

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Abstract

Grating enhanced ponderomotive scattering is used to directly characterize arrival time jitter and pulse duration for electron bunches longitudinally compressed with a 3GHz RF cavity. We report a long term arrival jitter over 2 hours of 65 fs and full characterization of femtosecond electron pulses, essential to determining the true operational time resolution for atomically resolved dynamics.

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