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Transverse and longitudinal characterization of electron beams using interaction with optical near-fields

We demonstrate an experimental technique for both transverse and longitudinal characterization of bunched femtosecond free electron beams. The operation principle is based on monitoring of the current of electrons that obtained an energy gain during the interaction with the synchronized optical near-field wave excited by femtosecond laser pulses. The synchronous accelerating/decelerating fields confined to the surface of a silicon nanostructure are characterized using a highly focused sub-relativistic electron beam. Here the transverse spatial resolution of 450 nm and femtosecond temporal resolution achievable by this technique are demonstrated.

preprint2016arXivOpen access
Martin KozákJoshua McNeurKenneth J. LeedleHuiyang DengNorbert SchönenbergerAxel RuehlIngmar HartlHeinar HooglandRonald HolzwarthJames S. HarrisRobert L. ByerPeter Hommelhoff
physics.optics
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Open access12 authors1 topic
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Authors

Martin KozákJoshua McNeurKenneth J. LeedleHuiyang DengNorbert SchönenbergerAxel RuehlIngmar HartlHeinar HooglandRonald HolzwarthJames S. HarrisRobert L. ByerPeter Hommelhoff

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