forthcoming articles

Continuous sample translation is evaluated as a tool to reduce X-ray damage in X-ray photon correlation spectroscopy studies of protein diffusion.

The study of the synchrotron X-ray radiation interaction with a multislit collimator is a critical factor for the creation of microbeams in radiation therapy. This study is a fundamental step forward in the understanding and definition of a reliable protocol for dosimetry at the micrometric scale to be used in microbeam radiation therapy.

A Rigaku XSPA-500k was evaluated and its performance characterized on the Metrology beamline at Synchrotron SOLEIL jointly by the SOLEIL Detector Group, AGH-UST and Rigaku.

The problem of X-ray beam nanofocusing with compound refractive lenses is examined in detail. It is shown that the minimum beam size is independent of either the aperture or photon energy but depends only on the compound refractive lens material electron density.

Integration of high crystalline structures of III–V semiconductors on Si and Ge is the prime requirement for the implementation of highly efficient and economically viable nano-photonic devices. EXAFS results of GaP/Ge(111) obtained using a synchrotron radiation source provided excellent insight and proposed new possibilities within the GaP/Ge hetero-structure, such as the conversion from indirect to direct band structures and engineering the tensile strain quantum dot structures on (111) surfaces.

An in situ Bragg coherent X-ray diffraction annealing experiment on focused ion beam damaged gold microcrystals is presented.

The new Frontier Microfocus Macromolecular Crystallography beamline FMX in sector 17-ID-2 of the National Synchrotron Lightsource II provides an ultra-bright microfocus beam and a flexible experimental station for structure determination from the most challenging crystals.

The design and operation of a 3D-printed flow in situ electrochemical cell suitable for ambient-temperature X-ray absorption spectra measurements is described. The ability to control, and significantly limit, photoreduction whilst requiring only small solution volumes make this a superior sampling approach to cryogenic techniques for many samples.

A description of the 1-Megapixel pnCCD detector design and capabilities, its implementation at EuXFEL's Small Quantum Systems Instrument both mechanically and from the controls side as well as important data correction steps aim to provide useful background for users planning and analyzing experiments at EuXFEL and may serve as a benchmark for comparing and planning future endstations at other FELs.