forthcoming articles
The following articles are a selection of those recently accepted for publication in Journal of Applied Crystallography.
See also Forthcoming articles in all IUCr journals.
research papers
Phase contrast neutron imaging compared to wave propagation- and McStas simulations
The article discusses the phase contrast effect and compare two simulation methods based on different theoretical frameworks. It demonstrates the ability to reproduce the phase effect in experimental data, using a well-known simulation framework McStas.
research papers
Reconstructing the reflectivity of liquid surfaces from grazing incidence X-ray off-specular scattering data
Reflectivity from liquid surfaces can be accurately obtained from the diffuse scattering signal around the specular reflection measured by grazing incidence off-specular scattering experiments along with the capillary wave model of diffuse scattering. This method allows for a much faster reflectivity profile acquisition and with an improved signal-noise ratio compared to conventional specular reflectometry.
research papers
High-pressure intrusion of double salt aqueous solution in pure silica chabazite: searching for cation selectivity
The intrusion of a ternary electrolyte solution (KCl+CaCl2) in pure silica chabazite is studied. The structural investigations reveal that the composition of the intruded species is different from those of the initial solution and that the K cations are separated from the Ca ones at the beginning of the intrusion. This seems to be due to different mechanisms of desolvation.
computer programs
iModel: an interactive 3D crystal structure visualization program
iModel is a 3D crystal structure visualization program that allows users to manipulate and customize models. Developed using LabVIEW and Python, it is a potentially powerful tool for crystal structure visualization.
computer programs
research papers
Synthesis and in-depth structure determination of a novel metastable high-pressure CrTe3 phase
High-p-T [pressure/high-temperature] experiments using monoclinic CrTe3 as a starting phase result in a novel structural polymorph identified as CrTe3 (P2/m) using dedicated methods of synchrotron X-ray diffraction and transmission electron microscopy. The magnetic properties of the novel CrTe3 phase were investigated through temperature- and field-dependent magnetization measurements and correlated with auxiliary theoretical investigations by first-principles electronic structure calculations and Monte Carlo simulations.
research papers
Bragg Spot Finder (BSF): a new machine-learning-aided approach to deal with spot finding for rapidly filtering diffraction pattern images
Bragg Spot Finder (BSF) is a UNet-based spotfinder with image preprocessing, a UNet segmentation backbone, and post-processing that includes artifact removal and Watershed segmentation. BSF is supported by the Bragg Spot Detection (BSD) benchmark image dataset containing more than 300 images with more than 66 000 spots.
research papers
Novel high-efficiency 2D position-sensitive ZnS:Ag/6LiF scintillator detector for neutron diffraction
A novel high-efficiency 2D position-sensitive WLSF ZnS:Ag/6LiF scintillator detector has been developed at ISIS for single-crystal diffraction applications. More than a factor of 3 improvement in efficiency was achieved with this detector compared with clear-fibre scintillator detectors. Software routines for further optimizations in position sensitivity and uniformity have been implemented for this type of detector. This new high-efficiency double-layer wavelength-shifting-fibre detector concept enables upgrades to the ISIS instrument suite and extends the scientific capabilities of the facility.
computer programs
research papers
Coupling between cation and anion disorder in β-K2Ca3(CO3)4
This report describes an `order–disorder' transition in the recently discovered K2Ca3(CO3)4 material and the disordered β modification with an unusual K–Ca isomorphism in cation sites. The appearance of mixed K/Ca sites, in turn, causes strong orientational disorder of anions and the emergence of an inversion center (the ordered α modification is non-centrosymmetric).
computer programs
Multifitting. Part 2. Software for reflectometric, off-specular and grazing-incidence small-angle scattering analysis of multilayer nanofilms
A computer program called Multifitting, which was developed to model the optical properties of multilayer films over a wide range of wavelengths, is described here. Its key features are the ability to work simultaneously with an arbitrary number of reflectometric and scatterometric experimental curves, and an ergonomic graphical user interface that is designed for intensive daily use in the characterization of thin films.
research papers
The tin content of lead inclusions in ancient tin-bronze artifacts: a time-dependent process?
The disequilibrium Sn content in Pb inclusions present in ancient (Sn,Cu)-bronze samples may in principle be used for authentication purposes. The present article explores the applicability of a method based on the precise diffraction measurement of the Pb lattice parameter.
research papers
Structural and electronic properties of Mo-decorated graphene, reduced graphene and reduced graphene oxide: a DFT calculation
The possible energies of different active adsorption sites of nanostructured Mo-doped symmetric reduced graphene (rG), Mo-decorated graphene, asymmetric reduced graphene and reduced graphene oxide (rGO) have been calculated using density functional theory (DFT). Covalent interactions between Mo and rG/rGO structures result in adsorption bonding, enhancing electrical conductivity and making them ideal for eliminating pollutants.