Method for polarization shaping at free-electron lasers

Serkez, Svitozar; Trebushinin, Andrei; Veremchuk, M. S.; Geloni, Gianluca

doi:10.1103/physrevaccelbeams.22.110705

Cited by 13 publications

(7 citation statements)

References 27 publications

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“…Note that the high brightness of XFEL makes it possible to implement previously inaccessible methods of diffraction pattern imaging using photoelectrons [171], methods of nonlinear X-ray physics [172], and new techniques of radiation polarization control [173].…”

Section: Specific Features Of Xfel Imagingmentioning

confidence: 99%

Methods of Coherent X-Ray Diffraction Imaging

2021

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Methods of coherent X-ray diffraction imaging of the spatial structure of noncrystalline objects and nanocrystals (nanostructures) are considered. Particular attention is paid to the methods of scanning-based coherent diffraction imaging (ptychography), visualization based on coherent surface scattering with application of correlation spectroscopy approaches, and specific features of visualization using X-ray free-electron laser radiation. The corresponding data in the literature are analyzed to demonstrate the state of the art of the methods of coherent diffraction imaging and fields of their application.

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Section: Specific Features Of Xfel Imagingmentioning

confidence: 99%

Methods of Coherent X-Ray Diffraction Imaging

2021

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“…Furthermore, the method could be combined with other methods. For example, consideration of temporal or short pulse effects can be envisaged that alter the FSL in the temporal domain (e.g., [47]) adding a further dimension for potential experimental exploitation.…”

Section: Discussionmentioning

confidence: 99%

Free Electron Laser Generation of X-Ray Poincaré Beams

Morgan,

Hemsing,

McNeil

et al. 2020

Preprint

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An optics-free method is proposed to generate X-ray radiation with spatially variant states of polarization via an afterburner extension to a Free Electron Laser (FEL). Control of the polarization in the transverse plane is obtained through the overlap of different coherent transverse light distributions radiated from a bunched electron beam in two consecutive orthogonally polarised undulators. Different transverse profiles are obtained by emitting at a higher harmonic in one or both of the undulators. This method enables the generation of beams structured in their intensity, phase, and polarization -so-called Poincaré beams -at high powers with tunable wavelengths. Simulations are used to demonstrate the generation of two different classes of light with spatially inhomogeneous polarization -cylindrical vector beams and full Poincaré beams.

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“…[213][214][215][216][217] The study of complex vector fields is not restricted to photons, as is shown by recent advances in vector neutron 218 and electron beams. 219,220 We strongly suspect that vector fields have a long -and potentially twisted -future.…”

Section: Discussionmentioning

confidence: 99%

Vectorial light-matter interaction -- exploring spatially structured complex light fields

Wang,

Castellucci,

Franke-Arnold

2020

Preprint

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Research on spatially-structured light has seen an explosion in activity over the past decades, powered by technological advances for generating such light, and driven by questions of fundamental science as well as engineering applications. In this review we highlight work on the interaction of vector light fields with atoms, and matter in general. This vibrant research area explores the full potential of light, with clear benefits for classical as well as quantum applications.

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Method for polarization shaping at free-electron lasers

Cited by 13 publications

References 27 publications

Methods of Coherent X-Ray Diffraction Imaging

Methods of Coherent X-Ray Diffraction Imaging

Free Electron Laser Generation of X-Ray Poincaré Beams

Vectorial light-matter interaction -- exploring spatially structured complex light fields

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