forthcoming articles

A method for sub-millimetre field-of-view full-field X-ray tomography at a resolution of hundreds of nanometres is presented.

A new design of a magnet-merged APPLE-Knot undulator with low on-axis heat load and high polarization is presented.

Systematic analysis on interfaces of Cr/Ti multilayers has been performed. The near-normal-incidence reflectivity increases from 4.48% to 15.75% at a wavelength of 2.73 nm using co-deposition of B₄C.

This contribution provides the design, construction and assembly details for an X-ray transparent triaxial deformation cell for 4D investigations of rock deformation and coupled chemical–mechanical processes in the geosciences. The portability and flexibility of the cell are demonstrated by deployment on four different synchrotron beamlines.

A new scheme is proposed and demonstrated to generate a two-color X-ray free-electron laser consisting of broadband and narrowband beams.

Free-electron laser X-ray beam-induced lattice disorder is investigated by measuring shot-to-shot evolution of near-Bragg coherent diffuse scattering from single-crystal germanium. It is shown that X-ray photon correlation analysis of sequential speckle measurements can be used to monitor the nature and extent of the lattice displacement rearrangement.

THORONDOR is a Python software realized for the analysis of multiple NEXAFS spectra collected in situ. It allows the correction and normalization of the acquired spectra through a fast and intuitive interface. Moreover, it offers a sophisticated toolbox for the fitting of the NEXAFS rising-edge peaks.

This paper presents propagation-based phase-contrast tomography in two configurations at the beamline endstation GINIX, demonstrated on the application of 1 mm human pancreatic tumor tissue biopsies.

A geometric method for resolving dislocation directions in synchrotron X-ray topography is described.

A bent crystal Laue analyser combined with total reflection fluorescence X-ray absorption fine structure is a promising technique for in situ surface analysis of highly dispersed systems even in the presence of solution.

New high-resolution cadmium–zinc–telluride drift strip detectors have been developed with excellent room-temperature energy resolution of 0.8% FWHM at 662 keV.