forthcoming articles
The following articles are a selection of those recently accepted for publication in Journal of Synchrotron Radiation.
See also Forthcoming articles in all IUCr journals.
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Prediction of the treatment effect of FLASH radiotherapy with Circular Electron-Positron Collider (CEPC) synchrotron radiation
CEPC synchrotron radiation beam can be considered as one of the best beams for FLASH radiotherapy after using a physicochemical model to predict the macroscopic therapeutic effect.
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The soft X-ray spectromicroscopy beamline BL08U1A upgrade at SSRF
The upgrading of BL08U1A has been conducted recently. The energy range reaches 180~2050 eV; the energy resolution reaches 16333 @244 eV, 12730 @401 eV; the photon flux measured in the experimental station is over 2.45×109 photons s-1 (E/ΔE = 6440@244 eV).
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Development of a flat jet delivery system for soft X-ray spectroscopy at MAX IV
Our work presents recent advancements in 3D-printed nozzles for liquid jet spectroscopy, made possible by the availability of nozzle development and testing facilities at EuXFEL, Germany. We also demonstrate the performance of one of these custom-designed nozzles in a new flat jet system under commissioning at MAX IV Laboratory in Lund, Sweden, introducing a new injection method to analyze flat liquid surfaces and opening new possibilities for the spectroscopy community.
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Hyperspectral full-field Quick-EXAFS imaging at the ROCK beamline for monitoring micrometre-sized heterogeneity of functional materials under process conditions
FF hyperspectral XAS imaging implemented at a Quick-EXAFS beamline offers the capability to add micrometre-scale information to second time resolution for operando monitoring of functional materials under process condition.
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Correcting angular distortions in Bragg coherent X-ray diffraction imaging
In our study, we have developed an algorithm that effectively corrects and tracks these angular distortions, enabling BCDI to work much more robustly and accurately in a wider range of challenging experimental scenarios.
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Demonstration of full polarization control of soft X-ray pulses with Apple X undulators at SwissFEL using recoil ion momentum spectroscopy
The polarization capabilities of SwissFEL's Athos beamline are demonstrated by deriving the Stokes parameters as a function of the undulator phase and comparing them with experimental measurements obtained by cold target recoil ion momentum spectroscopy.
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New achievements in orbital angular momentum beam characterization using a Hartmann wavefront sensor and the Kirkpatrick–Baez active optical system KAOS
By utilizing the active Kirkpatrick–Baez optical system in collimation mode coupled with a spiral zone plate, orbital angular momentum (OAM) beams have been successfully generated and characterized. The reported findings are relevant for future experiments on OAM structured beams.
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Double-edge scan wavefront metrology and its application in crystal diffraction wavefront measurements
An innovative double-edge scan wavefront metrology method has been developed which can resolve the problem of high-precision crystal absolute diffraction wavefront measurements. This method can be regarded as a critical feedback mechanism in the processing of next-generation crystals.
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Development and performance simulations of a soft X-ray and XUV split-and-delay unit at beamlines FL23/24 at FLASH2 for time-resolved two-color pump–probe experiments
A set-up for two-color experiments at FLASH2 utilizing the split-and-delay unit at FL23 and FL24 is presented. It will be achieved by using suitable filters and an additional grating beam path with a dispersion compensated monochromator.
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The diamond–silicon carbide composite Skeleton as a promising material for substrates of intense X-ray beam optics
A new material for substrates of optical elements used under ultra-powerful X-ray beams is described – the diamond-silicon carbide composite Skeleton. The composition and structure of the material, its surface roughness with a technological coating of polycrystalline silicon and its thermophysical characteristics are studied.
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Development and commissioning of a broadband online X-ray spectrometer for the SXFEL Facility
A high-energy-resolution X-ray spectrometer has been commissioned at the SXFEL Facility, delivering single-shot resolving power beyond 20000 to provide support for fine-tuning and optimization of the machine, during scientific research. The fine structure of the individual spiky peak in the SASE spectrum is clearly resolved to characterize the pulse length of FEL radiation.
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A versatile sample-delivery system for X-ray photoelectron spectroscopy of in-flight aerosols and free nanoparticles at MAX IV Laboratory
A new mobile sample-delivery system dedicated to in-flight studies of pristine aerosols and unsupported nanoparticles using X-ray photoelectron spectroscopy at the MAX IV Laboratory in Lund, Sweden, is presented here. The aerosol sample-delivery system brings an aerosol from atmospheric pressure to the experimental chamber in a continuous flow, and the design, operation and commissioning results of the system are presented here.
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