Your search keyword '"monochromators"' showing total 4,668 results

1. Mitigation of DMM‐induced stripe patterns in synchrotron X‐ray radiography through dynamic tilting.

Author

Eddah, Mustapha, Markötter, Henning, Mieller, Björn, Sintschuk, Michael, Beckmann, Jörg, and Bruno, Giovanni

Subjects

*IMAGE analysis, *HIGH resolution imaging, *RADIOGRAPHY, *MONOCHROMATORS, *ACQUISITION of data

Abstract

In synchrotron X‐ray radiography, achieving high image resolution and an optimal signal‐to‐noise ratio (SNR) is crucial for the subsequent accurate image analysis. Traditional methods often struggle to balance these two parameters, especially in situ applications where rapid data acquisition is essential to capture specific dynamic processes. For quantitative image data analysis, using monochromatic X‐rays is essential. A double multilayer monochromator (DMM) is successfully used for this aim at the BAMline, BESSY II (Helmholtz Zentrum Berlin, Germany). However, such DMMs are prone to producing an unstable horizontal stripe pattern. Such an unstable pattern renders proper signal normalization difficult and thereby causes a reduction of the SNR. We introduce a novel approach to enhance SNR while preserving resolution: dynamic tilting of the DMM. By adjusting the orientation of the DMM during the acquisition of radiographic projections, we optimize the X‐ray imaging quality, thereby enhancing the SNR. The corresponding shift of the projection during this movement is corrected in post‐processing. The latter correction allows a good resolution to be preserved. This dynamic tilting technique enables the homogenization of the beam profile and thereby effectively reduces noise while maintaining high resolution. We demonstrate that data captured using this proposed technique can be seamlessly integrated into the existing radiographic data workflow, as it does not need hardware modifications to classical X‐ray imaging beamline setups. This facilitates further image analysis and processing using established methods. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synchrotron CT dosimetry for wiggler operation at reduced magnetic field and spatial modulation with bow tie filters.

Author

Midgley, Stewart, Schleich, Nanette, Stevenson, Andrew, and Merchant, Alex

Subjects

*MAGNETIC flux density, *COMPUTED tomography, *DIAGNOSTIC imaging, *CRYSTALLINE lens, *SPATIAL filters, *MONOCHROMATORS

Abstract

The Australian Synchrotron Imaging and Medical Beamline (IMBL) uses a superconducting multipole wiggler (SCMPW) source, dual crystal Laue monochromator and 135 m propagation distance to enable imaging and computed tomography (CT) studies of large samples with mono‐energetic radiation. This study aimed to quantify two methods for CT dose reduction: wiggler source operation at reduced magnetic field strength, and beam modulation with spatial filters placed upstream from the sample. Transmission measurements with copper were used to indirectly quantify the influence of third harmonic radiation. Operation at lower wiggler magnetic field strength reduces dose rates by an order of magnitude, and suppresses the influence of harmonic radiation, which is of significance near 30 keV. Beam shaping filters modulate the incident beam profile for near constant transmitted signal, and offer protection to radio‐sensitive surface organs: the eye lens, thyroid and female breast. Their effect is to reduce the peripheral dose and the dose to the scanned volume by about 10% for biological samples of 35–50 mm diameter and by 20–30% for samples of up to 160 mm diameter. CT dosimetry results are presented as in‐air measurements that are specific to the IMBL, and as ratios to in‐air measurements that may be applied to other beamlines. As CT dose calculators for small animals are yet to be developed, results presented here and in a previous study may be used to estimate absorbed dose to organs near the surface and the isocentre. [ABSTRACT FROM AUTHOR]

Published

2024

3. Optical design of the time-resolved ARPES beamline of the new material spectroscopy experimental station for the update of CAEP THz-FEL facility.

Author

Du, Liang-Liang, Meng, Li-Min, Li, Jiang, and Zhu, Li-Guo

Subjects

*PHOTOELECTRON spectroscopy, *HARMONIC generation, *LIGHT sources, *SURFACES (Technology), *MONOCHROMATORS, *FREE electron lasers

Abstract

The Chinese Academy of Engineering Physics Terahertz Free Electron Laser Facility (CAEP THz FEL, CTFEL) is the only high-average power free electron laser terahertz source based on superconducting accelerators in China. The update of the CTFEL is now undergoing and will expand the frequency range from 0.1–4.2 THz to 0.1–125 THz. Two experimental stations for material spectroscopy and biomedicine will be built. A high harmonic generation (HHG) lightsource based beamline at the material spectroscopy experimental station for time-resolved angle-resolved photoemission spectroscopy (ARPES) research will be constructed and the optical design is presented. The HHG lightsource covers the extreme ultraviolet (XUV) photon energy range of 20–50 eV. A Czerny–Turner monochromator with two plane gratings worked in conical diffraction configuration is employed to maintain the transmission efficiency and preserve the pulse time duration. The calculated beamline transmission efficiency is better than 5% in the whole photon energy range. To our knowledge, this is the first time in China to combine THz-infrared FEL with HHG light source, and this experimental station will be a powerful and effective instrument that will give new research opportunities in the future for users doing research on the dynamic evolution of the excited electron band structure of a material's surface. [ABSTRACT FROM AUTHOR]

Published

2024

4. On the resolution of the three-axis neutron diffractometer setting optimized for some powder diffractometry studies.

Author

Mikula, Pavol, Ryukhtin, Vasyl, and Strunz, Pavel

Subjects

*NEUTRONS, *DIFFRACTOMETERS, *NEUTRON diffraction, *MATERIAL plasticity, *ELASTIC deformation, *MONOCHROMATORS

Abstract

Presented three-axis neutron diffractometer performance documents the feasibility of using it in special cases high-resolution powder diffraction studies, namely, for elastic and plastic deformation studies of bulk polycrystalline samples when the whole powder diffraction spectrum is not required. Contrary to the conventional double-axis setting the suggested alternative consists of an unconventional three axis set-up employing a bent perfect crystal (BPC) monochromator and analyzer with a polycrystalline sample in between. The analysis of the profile of the beam diffracted by a sample is carried out by rocking the BPC-analyzer and the neutron signal is registered by a point detector. Though the diffractometer alternative is, for measurements, much more time consuming, its resolution is, however, substantially higher and permits also plastic deformation studies on the basis of analysis of the sample diffraction profiles. The so-called analyzer rocking curve then provides a sample diffraction profile and could reflect the lattice or structural changes. Moreover, much larger widths (up to 10 mm) of the irradiated gauge volumes can be investigated when just slightly affecting the resolution of the experimental setting. [ABSTRACT FROM AUTHOR]

Published

2024

5. Multilayer Optics for Synchrotron Applications.

Author

Singhapong, Wadwan, Bowen, Chris, Wang, Hongchang, Sawhney, Kawal, and Lunt, Alexander J. G.

Subjects

*FOCUS (Optics), *SYNCHROTRON radiation, *SUBSTRATES (Materials science), *OPTICS, *MULTILAYERS

Abstract

X‐ray multilayer optics play a vital role in synchrotron optics due to their ability to generate constructive interference. These devices typically consist of several tens to hundreds of periods of alternating layers coated on a substrate. In contrast to single‐layer mirrors that reflect X‐rays within a specific energy range, multilayer optics can be tailored to achieve a high reflection over a broad energy spectrum. This is a sought‐after property for many beamlines and has led to the development of numerous new X‐ray applications and capabilities. This review highlights advances in multilayer optics, including fabrication techniques, layer structure design, material choice, and strategies to enhance performance. This is placed in the context of recent applications of such multilayers as monochromator and gratings, focusing devices, and polarizers. Current challenges and the future outlook within this field are also proposed. This comprehensive summary of a rapidly advancing field highlights recent achievements and is intended to promote practical applications in terms of the use of multilayer synchrotron optics. [ABSTRACT FROM AUTHOR]

Published

2024

6. BEATS: BEAmline for synchrotron X‐ray microTomography at SESAME.

Author

Iori, Gianluca, Alzu'bi, Mustafa, Abbadi, Anas, Al Momani, Yazeed, Hasoneh, Abdel Rahman, Van Vaerenbergh, Pierre, Cudin, Ivan, Marcos, Jordi, Ahmad, Abdalla, Mohammad, Anas, Matalgah, Salman, Foudeh, Ibrahim, Al Najdawi, Mohammad, Amro, Adel, Ur Rehman, Abid, Abugharbiyeh, Mohammad, Khrais, Rami, Aljadaa, Amro, Nour, Mohammad, and Al Mohammad, Hussam

Subjects

*SYNCHROTRON radiation, *MATERIALS science, *THREE-dimensional imaging, *LIGHT sources, *IMAGE reconstruction, *MONOCHROMATORS

Abstract

The ID10 beamline of the SESAME (Synchrotron‐light for Experimental Science and Applications in the Middle East) synchrotron light source in Jordan was inaugurated in June 2023 and is now open to scientific users. The beamline, which was designed and installed within the European Horizon 2020 project BEAmline for Tomography at SESAME (BEATS), provides full‐field X‐ray radiography and microtomography imaging with monochromatic or polychromatic X‐rays up to photon energies of 100 keV. The photon source generated by a 2.9 T wavelength shifter with variable gap, and a double‐multilayer monochromator system allow versatile application for experiments requiring either an X‐ray beam with high intensity and flux, and/or a partially spatial coherent beam for phase‐contrast applications. Sample manipulation and X‐ray detection systems are designed to allow scanning samples with different size, weight and material, providing image voxel sizes from 13 µm down to 0.33 µm. A state‐of‐the‐art computing infrastructure for data collection, three‐dimensional (3D) image reconstruction and data analysis allows the visualization and exploration of results online within a few seconds from the completion of a scan. Insights from 3D X‐ray imaging are key to the investigation of specimens from archaeology and cultural heritage, biology and health sciences, materials science and engineering, earth, environmental sciences and more. Microtomography scans and preliminary results obtained at the beamline demonstrate that the new beamline ID10‐BEATS expands significantly the range of scientific applications that can be targeted at SESAME. [ABSTRACT FROM AUTHOR]

Published

2024

7. The soft X‐ray spectromicroscopy beamline BL08U1A upgrade at SSRF.

Author

Zhen, Xiangjun, Guo, Zhi, Zhang, Zengyan, Wang, Yong, and Tai, Renzhong

Subjects

*PHOTON flux, *SYNCHROTRON radiation, *ACTINIC flux, *SPATIAL resolution, *MIRRORS, *MONOCHROMATORS

Abstract

Beamline BL08U1A is a soft X‐ray spectromicroscopy beamline at Shanghai Synchrotron Radiation Facility (SSRF) that exhibits the capabilities of high spatial resolution (30 nm) and high energy resolving power (over 104). As a first‐generation beamline of SSRF, owing to its continuous operation over the last ten years, an urgent upgrade of the equipment including the monochromator was deemed necessary. The upgrade work included the overall construction of the monochromator and replacement of the mirrors upstream and downstream of the monochromator. Based on its original skeleton, two elliptically cylinder mirrors were designed to focus the beam horizontally, which can increase the flux density by about three times on the exit slits. Meanwhile, the application of variable‐line‐space gratings in the monochromator demonstrates the dual functions of dispersing and focusing on the exit slits which can decrease abberations dramatically. After the upgrade of the main components of the beamline, the energy range is 180–2000 eV, the energy resolving power reaches 16333 @ 244 eV and 12730 @ 401 eV, and the photon flux measured in the experimental station is over 2.45 × 109 photons s−1 (E/ΔE = 6440 @ 244 eV). [ABSTRACT FROM AUTHOR]

Published

2024

8. Double‐edge scan wavefront metrology and its application in crystal diffraction wavefront measurements.

Author

Liu, Fang, Li, Ming, Diao, Qianshun, Li, Zhe, Shen, Zhibang, Li, Fan, Hong, Zhen, Lian, Hongkai, Yue, Shuaipeng, Hou, Qingyan, Zhang, Changrui, Zhang, Dongni, Li, Congcong, Yang, Fugui, and Yang, Junliang

Subjects

*SYNCHROTRON radiation sources, *SYNCHROTRON radiation, *CRYSTAL surfaces, *MONOCHROMATORS, *CRYSTALS

Abstract

Achieving diffraction‐limited performance in fourth‐generation synchrotron radiation sources demands monochromator crystals that can preserve the wavefront across an unprecedented extensive range. There is an urgent need for techniques of absolute crystal diffraction wavefront measurement. At the Beijing Synchrotron Radiation Facility (BSRF), a novel edge scan wavefront metrology technique has been developed. This technique employs a double‐edge tracking method, making diffraction‐limited level absolute crystal diffraction wavefront measurement a reality. The results demonstrate an equivalent diffraction surface slope error below 70 nrad (corresponding to a wavefront phase error of 4.57% λ) r.m.s. within a nearly 6 mm range for a flat crystal in the crystal surface coordinate. The double‐edge structure contributes to exceptional measurement precision for slope error reproducibility, achieving levels below 15 nrad (phase error reproducibility < λ/100) even at a first‐generation synchrotron radiation source. Currently, the measurement termed double‐edge scan (DES) has already been regarded as a critical feedback mechanism in the fabrication of next‐generation crystals. [ABSTRACT FROM AUTHOR]

Published

2024

9. New opportunities for high pressure X-ray absorption spectroscopy at ID24-DCM and BM23 with the Extremely Brilliant Source of the ESRF.

Author

Rosa, A. D., Garbarino, G., Rodrigues, J. E., Mijit, E., Jacobs, J., Bugnazet, D., Pasternak, S., Berruyer, G., Moyne, A., Clavel, C., Perrin, F., Anzellini, S., Meneghini, C., Occelli, F., Zhan, X., Ishimatsu, N., Sakai, T., Boccato, S., Torchio, R., and Hernandez, J.-A.

Subjects

*X-ray absorption, *PHOTON flux, *X-ray spectroscopy, *MONOCHROMATORS, *DETECTORS

Abstract

Here we present the new experimental stations devoted to the studies of matter under extreme conditions at the X-ray absorption beamlines BM23 and ID24-DCM that were recently refurbished within the ESRF – Extremely Brilliant Source (EBS) upgrade program. In comparison with the stations before the EBS upgrade, they exhibit outstanding performances in terms of sample positioning capabilities, acceptance of multi-detection systems and complex sample environments. In addition, significant improvements regarding the photon flux and focusing capabilities down to the submicron size have been achieved. These stations are now coupled with the new ESRF double crystal monochromators that exhibit an exceptional beam position and energy stability and that permit quick micro-EXAFS measurements down to one EXAFS/second, and hyperspectral EXAFS mapping. In this contribution, we discuss the choices regarding the sample and detector stages and illustrate the potential of the new setups for extreme conditions studies based on selected preliminary results. [ABSTRACT FROM AUTHOR]

Published

2024

10. The concept for hard X-ray beamline optics at SLS 2.0

Author

Benedikt Roesner, Joerg Raabe, Philip R. Willmott, and Uwe Flechsig

Subjects

sls 2.0, hard x-rays, monochromators, optical design, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

In the scope of the latest upgrade of the Swiss Light Source, five hard X-ray beamlines will be constructed or rebuilt. To use synergies between these beamline projects, a concept is developed here for hard X-ray beamlines that is tailored to the new storage ring. Herein, this concept is described from the source, via the front end, to the beamline optics. The latter will be outlined in detail, including a new and modular concept for hard X-ray monochromators, focusing optics and heat-load management. With a simple, easy-to-operate and robust beamline design, the new beamlines will greatly profit from the increased brilliance of the new storage ring. The performance increase is up to four orders of magnitude, while the beamline concept allows for the broad application of experimental techniques, from propagation-based methods, such as phase-contrast tomography, to imaging techniques with nanometre resolution. At the same time, spectroscopy experiments are possible as well as high-performance serial X-ray crystallography.

Published

2024

11. Enhancing Micro-Raman Spectroscopy: A Variable Spectral Resolution Instrument Using Zoom Lens Technology.

Author

Pavić, Ivan, Kaštelan, Nediljko, Adamczyk, Arkadiusz, and Ivanda, Mile

Subjects

*ZOOM lenses, *INELASTIC scattering, *RAMAN spectroscopy, *SPECTROMETRY, *PHOTON scattering, *MONOCHROMATORS, *SPECTRAL imaging, *MIRRORS, *SERS spectroscopy

Abstract

Raman spectroscopy is a powerful analytical technique based on the inelastic scattering of photons. Conventional macro-Raman spectrometers are suitable for mass analysis but often lack the spatial resolution required to accurately examine microscopic regions of interest. For this reason, the development of micro-Raman spectrometers has been driven forward. However, even with micro-Raman spectrometers, high resolution is required to gain better insight into materials that provide low-intensity Raman signals. Here, we show the development of a micro-Raman spectrometer with implemented zoom lens technology. We found that by replacing a second collimating mirror in the monochromator with a zoom lens, the spectral resolution could be continuously adjusted at different zoom factors, i.e., high resolution was achieved at a higher zoom factor and lower spectral resolution was achieved at a lower zoom factor. A quantitative analysis of a micro-Raman spectrometer was performed and the spectral resolution was analysed by FWHM using the Gaussian fit. Validation was also performed by comparing the results obtained with those of a high-grade laboratory Raman spectrometer. A quantitative analysis was also performed using the ANOVA method and by assessing the signal-to-noise ratio between the two systems. [ABSTRACT FROM AUTHOR]

Published

2024

12. Characterization of silicon pore optics for the NewAthena X‐ray observatory in the PTB laboratory at BESSY II.

Author

Krumrey, M., Skroblin, D., Cibik, L., Collon, M., Vacanti, G., Barrière, N., Hauser, E., and Bavdaz, M.

Subjects

*X-ray optics, *MONOCHROMATORS, *OBSERVATORIES, *GRAZING incidence, *CCD cameras, *ASTROPHYSICS

Abstract

The New Advanced Telescope for High ENergy Astrophysics (NewAthena) will be the largest space‐based X‐ray observatory ever built. It will have an effective area above 1.1 m2 at 1 keV, which corresponds to a polished mirror surface of about 300 m2 due to the grazing incidence. As such a mirror area is not achievable with an acceptable mass even with nested shells, silicon pore optics (SPO) technology will be utilized. In the PTB laboratory at BESSY II, two dedicated beamlines are in use for their characterization with monochromatic radiation at 1 keV and a low divergence well below 2 arcsec: the X‐ray Pencil Beam Facility (XPBF 1) and the X‐ray Parallel Beam Facility (XPBF 2.0), where beam sizes up to 8 mm × 8 mm are available while maintaining low beam divergence. This beamline is used for characterizing mirror stacks and controlling the focusing properties of mirror modules (MMs) – consisting of four mirror stacks – during their assembly at the beamline. A movable CCD based camera system 12 m from the MM registers the direct and the reflected beams. The positioning of the detector is verified by a laser tracker. The energy‐dependent reflectance in double reflection through the pores of an MM with an Ir coating was measured at the PTB four‐crystal monochromator beamline in the photon energy range 1.75 keV to 10 keV, revealing the effects of the Ir M edges. The measured reflectance properties are in agreement with the design values to achieve the envisaged effective area. [ABSTRACT FROM AUTHOR]

Published

2024

13. The concept for hard X‐ray beamline optics at SLS 2.0.

Author

Roesner, Benedikt, Raabe, Joerg, Willmott, Philip R., and Flechsig, Uwe

Subjects

*X-ray optics, *HARD X-rays, *FOCUS (Optics), *STORAGE rings, *X-ray crystallography, *LIGHT sources

Abstract

In the scope of the latest upgrade of the Swiss Light Source, five hard X‐ray beamlines will be constructed or rebuilt. To use synergies between these beamline projects, a concept is developed here for hard X‐ray beamlines that is tailored to the new storage ring. Herein, this concept is described from the source, via the front end, to the beamline optics. The latter will be outlined in detail, including a new and modular concept for hard X‐ray monochromators, focusing optics and heat‐load management. With a simple, easy‐to‐operate and robust beamline design, the new beamlines will greatly profit from the increased brilliance of the new storage ring. The performance increase is up to four orders of magnitude, while the beamline concept allows for the broad application of experimental techniques, from propagation‐based methods, such as phase‐contrast tomography, to imaging techniques with nanometre resolution. At the same time, spectroscopy experiments are possible as well as high‐performance serial X‐ray crystallography. [ABSTRACT FROM AUTHOR]

Published

2024

14. X‐ray optics for the cavity‐based X‐ray free‐electron laser.

Author

Liu, Peifan, Pradhan, Paresh, Shi, Xianbo, Shu, Deming, Kauchha, Keshab, Qiao, Zhi, Tamasaku, Kenji, Osaka, Taito, Zhu, Diling, Sato, Takahiro, MacArthur, James, Huang, XianRong, Assoufid, Lahsen, White, Marion, Kim, Kwang-Je, and Shvyd'ko, Yuri

Subjects

*X-ray optics, *X-ray lasers, *MONOCHROMATORS, *DIAMOND crystals, *ELECTRON sources, *FREE electron lasers, *RESEARCH & development projects

Abstract

A cavity‐based X‐ray free‐electron laser (CBXFEL) is a possible future direction in the development of fully coherent X‐ray sources. CBXFELs consist of a low‐emittance electron source, a magnet system with several undulators and chicanes, and an X‐ray cavity. The X‐ray cavity stores and circulates X‐ray pulses for repeated FEL interactions with electron pulses until the FEL reaches saturation. CBXFEL cavities require low‐loss wavefront‐preserving optical components: near‐100%‐reflectivity X‐ray diamond Bragg‐reflecting crystals, outcoupling devices such as thin diamond membranes or X‐ray gratings, and aberration‐free focusing elements. In the framework of the collaborative CBXFEL research and development project of Argonne National Laboratory, SLAC National Accelerator Laboratory and SPring‐8, we report here the design, manufacturing and characterization of X‐ray optical components for the CBXFEL cavity, which include high‐reflectivity diamond crystal mirrors, a diamond drumhead crystal with thin membranes, beryllium refractive lenses and channel‐cut Si monochromators. All the designed optical components have been fully characterized at the Advanced Photon Source to demonstrate their suitability for the CBXFEL cavity application. [ABSTRACT FROM AUTHOR]

Published

2024

15. The development of laboratory‐based high energy sources for XPS.

Author

Watts, John F. and Castle, James E.

Subjects

*BINDING energy, *X-ray tubes, *ELECTRONIC structure, *LABORATORIES, *MONOCHROMATORS, *AUGERS, *STEEL walls

Abstract

Over the last fifty years, a number of higher energy X‐ray sources have been suggested as alternatives for the usual AlKα source found in the first commercial XPS systems and still the standard anode material for XPS today. This paper reviews the development of a number of such sources, predominantly in the authors' laboratory, and the rationale behind the desire to extend the binding energy range of the technique. The achromatic sources SiKα, ZrLα and TiKα are described along with monochromatic sources AgLα and CrKβ, both based on the standard quartz monochromator geometry but taking higher orders of diffraction. The driving force for much of this development was the desire to probe deeper core levels and CCC Auger transitions. These could be combined into initial or final state Auger parameters as described in much of the work cited in this review. The highest energy source considered is the CuKα source based around an external X‐ray tube, which provides much insight into the electronic structure of steels by measurement of the Fe1s and FeKLL peaks. The last decade or so has seen a significant increase of interest in HAXPES, and all manufacturers of turn‐key XPS instruments offer HAXPES options of one form or another, there are three dedicated HAXPES systems commercially available, which are very briefly described. [ABSTRACT FROM AUTHOR]

Published

2024

16. Investigation of the Properties of Multilayer Mirrors Based on a Pair of Materials Mo/B4C.

Author

Shaposhnikov, R. A., Garakhin, S. A., Durov, K. V., Polkovnikov, V. N., and Chkhalo, N. I.

Subjects

*REFLECTANCE, *BASE pairs, *MONOCHROMATORS, *MIRRORS, *SYNCHROTRONS

Abstract

The properties of Mo/B4C multilayer X-ray mirrors with periods of 3.74–3.84 nm are studied in this work. The dependences of the transmission band, reflection coefficient and the magnitude of internal stresses in mirrors on the ratio of material thicknesses in the period were investigated. The results of a study of the effect of thermal annealing on the structural parameters and reflective characteristics of mirrors are also presented in the paper. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Near Fourier-Limited Pulse-Preserving Monochromator for Extreme-Ultraviolet Pulses in the Few-Fs Regime.

Author

Yang, Yudong, Neumann, Tanja, Hengster, Julia, Mainz, Roland E., Elsner, Jakob, Mücke, Oliver D., Kärtner, Franz X., and Uphues, Thorsten

Subjects

MONOCHROMATORS, FEMTOSECOND pulses

Abstract

We present a pulse-preserving multilayer-based extreme-ultraviolet (XUV) monochromator providing ultra-narrow bandwidth ( Δ E < 0.6 eV , E c = 92 eV ) and compact footprint ( 28 × 10 cm 2 ) for easy integration into high-harmonic generation (HHG) or free-electron laser (FEL) sources. The temporal resolution of the novel design supports pulse durations of typical pump–probe setups in the femtosecond and attosecond regime, depending on the mirror design and focusing geometries over the tuning range of the monochromator. The theoretical design is analyzed and experimentally characterized in a laser-driven HHG setup. [ABSTRACT FROM AUTHOR]

Published

2024

18. Modelling the power threshold and optimum thermal deformation of indirectly liquid-nitrogen cryo-cooled Si monochromators.

Author

Khosroabadi, Hossein, Alianelli, Lucia, Sanchez-Navarro, Pablo, Peach, Andrew, and Sawhney, Kawal

Subjects

*MONOCHROMATORS, *SILICON crystals, *OPTICS, *CRYSTALS, *THERMAL properties

Abstract

Maximizing the performance of crystal monochromators is a key aspect in the design of beamline optics for diffraction-limited synchrotron sources. Temperature and deformation of cryo-cooled crystals, illuminated by high-power beams of X-rays, can be estimated with a purely analytical model. The analysis is based on the thermal properties of cryo-cooled silicon crystals and the cooling geometry. Deformation amplitudes can be obtained, quickly and reliably. In this article the concept of threshold power conditions is introduced and defined analytically. The contribution of parameters such as liquid-nitrogen cooling efficiency, thermal contact conductance and interface contact area of the crystal with the cooling base is evaluated. The optimal crystal illumination and the base temperature are inferred, which help minimize the optics deformation. The model has been examined using finite-element analysis studies performed for several beamlines of the Diamond-II upgrade. [ABSTRACT FROM AUTHOR]

Published

2024

19. Light-Emitting-Diode-Induced Fluorescence from Organic Dyes for Application in Excitation–Emission Fluorescence Spectroscopy for Food System Analysis.

Author

Vladev, Veselin, Brazkova, Mariya, Bozhkov, Stefan, Angelova, Galena, Blazheva, Denica, Minkova, Stefka, Nikolova, Krastena, and Eftimov, Tinko

Subjects

FLUORESCENCE spectroscopy, ORGANIC dyes, FOOD chemistry, DIFFRACTION gratings, SYSTEM analysis, MONOCHROMATORS, LIGHT emitting diodes

Abstract

An experimental study is presented on the possibility of using the fluorescence from organic dyes as a broadband light source together with a monochromator for applications in excitation–emission matrix (EEM) fluorescence spectroscopy. A high-power single-chip light-emitting diode (LED) was chosen as an excitation source with a central output wavelength at 365 nm to excite a fluorescent solution of Coumarin 1 dye dissolved in ethanol. Two excitation configurations were investigated: direct excitation from the LED and excitation through an optical-fiber-coupled LED. A Czerny–Turner monochromator with a diffraction grating was used for the spectral tuning of the fluorescence. A simple method was investigated for increasing the efficiency of the excitation as well as the fluorescence signal collection by using a diffuse reflector composed of barium sulfate (BaSO4) and polyvinyl alcohol (PVA). As research objects, extra-virgin olive oil (EVOO), Coumarin 6 dye, and Perylene, a polycyclic aromatic hydrocarbon (PAH), were used. The results showed that the light-emitting-diode-induced fluorescence was sufficient to cover the losses on the optical path to the monochromator output, where a detectable signal could be obtained. The obtained results reveal the practical possibility of applying the fluorescence from dyes as a light source for food system analysis by EEM fluorescence spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2024

20. A continuous beam monochromator for matter waves.

Author

Fiedler, Johannes and Holst, Bodil

Subjects

*DE-Broglie waves, *DEGREES of freedom, *MONOCHROMATORS, *LASER beams, *INDUSTRIAL research, *INTERFEROMETERS

Abstract

Atom and, of late, molecule interferometers find application in both the crucible of fundamental research and industrial pursuits. A prevalent methodology in the construction of atom interferometers involves the utilisation of gratings fashioned from laser beams. While this approach imparts commendable precision, it is hampered by its incapacity to attain exceedingly short wavelengths and its dependence on intricate laser systems for operational efficacy. All applications require the control of matter waves, particularly the particle's velocity. In this manuscript, we propose a continuous beam monochromator scheme reaching enormously high velocity purification with speed ratios in the order of 10 3 based on atom-surface diffraction. Beyond these high purifications, the proposed scheme simplifies the application by reducing the degree of freedom to a single angle, selecting the wanted particle's velocity. [ABSTRACT FROM AUTHOR]

Published

2024

21. Research on the Mechanism of Flow-Induced Vibration in the Cooling System of a Double Crystal Monochromator.

Author

Li, Ao, Gong, Xuepeng, Bai, Yang, Lu, Qipeng, Li, Shengchi, Zhang, Wenbo, and Chai, Kewei

Subjects

MONOCHROMATORS, COOLING systems, LIQUID nitrogen, MODAL analysis, KINETIC energy

Abstract

To investigate the mechanism of flow-induced vibrations in the cooling system of a double crystal monochromator (DCM), this paper utilizes a multi-physics numerical simulation approach, employing ANSYS and FLUENT platforms to simulate the flow state of liquid nitrogen in the cooling system and explore the amplitude response of the DCM. Initially, simulations were conducted to examine the flow state of liquid nitrogen with varying frequency and amplitude pulsations. Subsequently, modal analysis was employed to investigate the amplitude response of the DCM in the pitch direction vibrations under pulsating excitation. Finally, this research investigated the influence of high heat load-induced liquid nitrogen boiling on a DCM. The results indicate that pipe resistance is the fundamental cause of vibration induced by pulsating excitation. Low-frequency excitation enhances the amplification factor of DCM vibration. In contrast, due to the rapid conversion of fluid kinetic energy to pressure potential energy, high-frequency excitation increases the pulsation amplitude in the pipe. Additionally, there is a linear relationship between the amplitude of liquid nitrogen velocity fluctuations and the response amplitude of a DCM. The slug flow formed after liquid nitrogen boiling generates low-frequency pulse signals, and intermittent fluid impacts cause significant vibrations in the DCM. These research findings provide a reference for the analysis and design of ultra-high-stability DCM cooling systems. [ABSTRACT FROM AUTHOR]

Published

2024

22. Prelaunch Spectral Characterization of the Operational Land Imager-2.

Author

Barsi, Julia A., Donley, Eric, Goldman, Michelle, Kampe, Thomas, Markham, Brian L., McAndrew, Brendan, McCorkel, Joel, Morland, Eric, Pedelty, Jeffrey A., Pharr, James, Rodriguez, Michael R., Shuman, Timothy M., Stutheit, Cameron, and Sushkov, Andrei B.

Subjects

*FOCAL planes, *SPECTRAL sensitivity, *LASER measurement, *LANDSAT satellites, *MONOCHROMATORS, *RADIANCE

Abstract

The Landsat-9 satellite, launched in September 2021, carries the Operational Land Imager-2 (OLI-2) as one of its payloads. This instrument is a clone of the Landsat-8 OLI and its mission is to continue the operational land imaging of the Landsat program. The OLI-2 instrument is not significantly different from OLI though the instrument-level pre-launch spectral characterization process was much improved. The focal plane modules used on OLI-2 were manufactured as spares for OLI and much of the spectral characterization of the components was performed for OLI. However, while the spectral response of the fully assembled OLI was characterized by a double monochromator system, the OLI-2 spectral characterization made use of the Goddard Laser for Absolute Measurement of Radiance (GLAMR). GLAMR is a system of tunable lasers that cover 350–2500 nm which are fiber-coupled to a 30 in integrating sphere permanently monitored by NIST-traceable radiometers. GLAMR allowed the spectral characterization of every detector of the OLI-2 focal plane in nominal imaging conditions. The spectral performance of the OLI-2 was, in general, much better than requirements. The final relative spectral responses (RSRs) represent the best characterization any Landsat instrument spectral response. This paper will cover the results of the spectral characterization from the component-level to the instrument-level of the Landsat-9 OLI-2. [ABSTRACT FROM AUTHOR]

Published

2024

23. A dedicated application of evolutionary algorithms: synchrotron X-ray radiation optimization based on an in-vacuum undulator.

Author

Ketenoglu, Bora, Bostanci, Erkan, Ketenoglu, Didem, Canbay, Ali Can, Harder, Manuel, Karaca, Adnan Sahin, Eren, Engin, Aydin, Ayhan, Yin, Zhong, Guzel, Mehmet Serdar, and Martins, Michael

Subjects

*EVOLUTIONARY algorithms, *PHOTON flux, *LIGHT sources, *FREE electron lasers, *SYNCHROTRON radiation, *ELECTRON beams, *MONOCHROMATORS

Abstract

Following the rapid growth in accelerator-based light sources research since the mid of 20th century, miscellaneous third generation synchrotron radiation (SR) facilities such as SSRL, APS, ESRF, PETRA-III, and SPring-8 have come into existence. These SR source facilities provide 1020–1025 photons/s/mrad2/mm2/0.1%BW peak brightness within the photon energy range of 10–105 eV. Since different measurement techniques are utilized at X-ray beamlines of SR facilities, many kinds of insertion devices (i.e., undulators and wigglers) and optical components (e.g., high-resolution monochromators, double-crystal monochromators, lenses, mirrors, etc.) are employed for each experimental setup as a matter of course. Under the circumstances, optimization of a synchrotron beamline is a big concern for many scientists to ensure required radiation characteristics (i.e., photon flux, spot size, photon energy, etc.) for dedicated user experiments. In this respect, an in-vacuum hybrid undulator driven by a 6 GeV synchrotron electron beam is optimized using evolutionary algorithms (EA). Finally, it is shown that EA results are well consistent with both the literature and the analytical calculations, resulting in a promising design estimation for beamline scientists. [ABSTRACT FROM AUTHOR]

Published

2024

24. Quantification of UV Light-Induced Spectral Response Degradation of CMOS-Based Photodetectors.

Author

Siles, Pablo F. and Gäbler, Daniel

Subjects

*SPECTRAL sensitivity, *PHOTODETECTORS, *LIGHT sources, *ULTRAVIOLET lamps, *CMOS image sensors, *OPTICAL fibers, *MONOCHROMATORS, *RADIATION sterilization

Abstract

High-energy radiation is known to potentially impact the optical performance of silicon-based sensors adversely. Nevertheless, a proper characterization and quantification of possible spectral response degradation effects due to UV stress is technically challenging. On one hand, typical illumination methods via UV lamps provide a poorly defined energy spectrum. On the other hand, a standardized measurement methodology is also missing. This work provides an approach where well-defined energy spectrum UV stress conditions are guaranteed via a customized optical set up, including a laser driven light source, a monochromator, and a non-solarizing optical fiber. The test methodology proposed here allows performing a controlled UV stress between 200 nm and 400 nm with well-defined energy conditions and offers a quantitative overview of the impact on the optical performance in CMOS-based photodiodes, along a wavelength range from 200 to 1100 nm and 1 nm step. This is of great importance for the characterization and development of new sensors with a high and stable UV spectral response, as well as for implementation of practical applications such as UV light sensing and UV-based sterilization. [ABSTRACT FROM AUTHOR]

Published

2024

25. Investigation of structural and reflective characteristics of short-period Mo/B4C multilayer X-ray mirrors.

Author

Shaposhnikov, Roman, Polkovnikov, Vladimir, Garakhin, Sergey, Vainer, Yuliy, Chkhalo, Nikolay, Smertin, Ruslan, Durov, Kirill, Glushkov, Egor, Yakunin, Sergey, and Borisov, Mikhail

Subjects

*MIRRORS, *SYNCHROTRONS, *WAVELENGTHS, *MONOCHROMATORS

Abstract

The results of a study of the structural and reflective characteristics of short-period multilayer X-ray mirrors based on Mo/B4C at wavelengths 1.54 Å, 9.89 Å and 17.59 Å are presented. The period of the samples varied in the range 8-35 Å. The average widths of the interfaces were ~3.5 and 2.2 Å at one and the other boundaries, with a tendency for weak growth with any decrease in the period. The interlayer roughness was ~1 Å. The research results indicate promising prospects for the use of multilayer Mo/B4C mirrors for synchrotron applications. [ABSTRACT FROM AUTHOR]

Published

2024

26. A thermal deformation optimization method for cryogenically cooled silicon crystal monochromators under high heat load.

Author

Jiayin Liu, Zhan Ji, Yichen Fan, Xinxin Yan, Miaomiao Wang, and Hongliang Qin

Subjects

*SILICON crystals, *MONOCHROMATORS, *HEATING load, *SYNCHROTRON radiation sources, *ENTHALPY, *TEMPERATURE distribution

Abstract

A method to optimize the thermal deformation of an indirectly cryo-cooled silicon crystal monochromator exposed to intense X-rays at a low-emittance diffraction-limited synchrotron radiation source is presented. The thermalinduced slope error of the monochromator crystal has been studied as a function of heat transfer efficiency, crystal temperature distribution and beam footprint size. A partial cooling method is proposed, which flattens the crystal surface profile within the beam footprint by modifying the cooling contact area to optimize the crystal peak temperature. The optimal temperature varies with different photon energies, which is investigated, and a proper cooling strategy is obtained to fulfil the thermal distortion requirements over the entire photon energy range. At an absorbed power up to 300 W with a maximum power density of 44.8 W mm-2 normal incidence beam from an in-vacuum undulator, the crystal thermal distortion does not exceed 0.3 mrad at 8.33 keV. This method will provide references for the monochromator design on diffraction-limited synchrotron radiation or free-electron laser light sources. [ABSTRACT FROM AUTHOR]

Published

2024

27. Research and optimization of flow-induced vibrations in a water-cooled monochromator.

Author

Chai, Shuo, Zhu, WanQian, Zhang, ZhanFei, Zhang, LiMin, and Xue, Song

Subjects

*MONOCHROMATORS, *SYNCHROTRON radiation, *COOLING systems, *RESEARCH personnel

Abstract

To enhance the stability of the water-cooled double-crystal monochromator used at the BL17B beamline of the Shanghai Synchrotron Radiation Facility (SSRF), a study was conducted to optimize its cooling system's flow-induced vibration. Through simulation and experimental verification, the researchers analyzed the vibration mechanism and implemented improvement measures. The results indicate that the elastic bellows greatly amplify flow-induced vibration, transmitting it to the first-crystal. By positioning the bellows closer to the crystal, the relative pitch angular vibration of the double-crystal was reduced by 17.5%, and the roll angular vibration decreased by 6.1%. Furthermore, changing the flow rate from 3 to 2.4 l/min further diminished the relative pitch angular vibration by 6.0% and the roll angular vibration by 7.9%. By effectively reducing flow-induced vibration in the water-cooled double-crystal monochromator, equipment stability is enhanced, and the relative angular vibration of the double-crystal has been reduced. This research provides a valuable method and approach for optimizing the stability of the monochromator and related equipment. [ABSTRACT FROM AUTHOR]

Published

2024

28. SI Correction.

Subjects

*MONOCHROMATORS, *ATTENUATION coefficients, *PHYSICAL sciences, *GROUND penetrating radar

Abstract

This document is a correction to the supporting information for an article on the preservation of cellulose in ancient textiles. The authors note an error in Table S2, which has been corrected online. The article discusses the analysis of fibers from archaeological sites in Turkmenistan, Pakistan, and Iraq using synchrotron X-ray microtomography and μ-FTIR spectroscopy. The document provides technical information about the methods and equipment used in the study, including second-harmonic generation microscopy and energy-dispersive X-ray spectroscopy. It also includes tables and figures related to the analysis of compounds found in archaeological contexts, specifically copper artifacts from Nausharo and Tello. The information can be helpful for researchers studying similar topics. [Extracted from the article]

Published

2024

29. Design of a High-Resolution VLS Monochromator for Synchrotron Radiation.

Author

Shatokhin, A. N., Vishnyakov, E. A., Kolesnikov, A. O., Nikolenko, A. D., and Ragozin, E. N.

Subjects

*SYNCHROTRON radiation sources, *VACUUM ultraviolet spectroscopy, *SYNCHROTRON radiation, *RAY tracing, *MIRRORS, *MONOCHROMATORS

Abstract

A high-resolution monochromator with a broad spectral range of 125–4200 Å is designed for a measuring beamline of the projected synchrotron radiation source "SKIF" (Novosibirsk). The optical configuration of the monochromator comprises a grazing-incidence concave mirror, a plane VLS grating, and an exit slit. It is planned to use two replaceable VLS gratings with central groove frequencies of 600 and 150 mm–1 intended for subranges of 125–1000 Å and 900–4200 Å, respectively. Wavelength tuning in each of the two subranges is carried out by solely the rotation of the VLS-gratings. Due to the proper choice of p1 VLS-grating coefficients, the focal distance varies only slightly over the entire spectral range, and the p2 VLS-grating coefficients are used to suppress the aberrations of the mirror and the gratings. The resolving power of the configuration obtained by numerical ray tracing exceeds 1000 in the 125–1000 Å range and 2000 in the 900–4200 Å range. [ABSTRACT FROM AUTHOR]

Published

2024

30. Crystallographic Data Collection Using a Multilayer Monochromator on an Undulator Beamline at the Shanghai Synchrotron Radiation Facility.

Author

Zhang, Chenyu, Xu, Qin, Wang, Weiwei, Liang, Miao, Yu, Li, Li, Minjun, Zhu, Zhimin, Huang, Liqing, Li, Qianhui, Yu, Feng, Wang, Yuzhu, Zhou, Huan, and Wang, Qisheng

Subjects

SYNCHROTRON radiation, MONOCHROMATORS, ACQUISITION of data, SILICON crystals, CRYSTALLOIDS (Botany), CRYSTAL models

Abstract

To resolve photons hungry for weak diffraction samples by the crystallographic method, a double-multilayer monochromator (DMM) was employed on an undulator beamline (BL17UM) at the Shanghai Synchrotron Radiation Facility (SSRF) to provide a focused sub-micron beam with high brightness for macromolecular crystallography experiments. High-quality crystallographic datasets from model protein crystal samples were collected and processed by an existing crystallographic program for structure solution and refinement. The data quality was compared with datasets from a normal silicon crystal monochromator to evaluate the bandwidth of the DMM effect on these crystallographic data. This experiment demonstrates that multilayer optics on an undulator beamline may play a valuable role in satisfying the demands of structure-related research, which requires novel methods. [ABSTRACT FROM AUTHOR]

Published

2024

31. Novel use of an adapted ultraviolet double monochromator for measurements of global and direct irradiance, ozone, and aerosol.

Author

Geddes, Alexander, Liley, Ben, McKenzie, Richard, Kotkamp, Michael, and Querel, Richard

Subjects

*SPECTRAL irradiance, *RADIOMETERS, *SPECTROPHOTOMETERS, *AEROSOLS, *OZONE, *MONOCHROMATORS, *ULTRAVIOLET spectrometers, *STANDARD deviations

Abstract

A novel ultraviolet spectrometer has been developed and tested over 10 years at Lauder, New Zealand. The system, UV2, makes alternating measurements of the global and direct UV irradiance and can therefore be used to measure ozone and aerosol optical depth. After an analysis of the stability of UV2, these measurements, along with UV irradiance, are compared to relevant observations made by an additional UV spectrometer (UV4), a Dobson spectrophotometer (no. 072), and two radiometers measuring aerosol optical depth – a Prede sky radiometer and a Middleton Solar radiometer (SP02). UV2 irradiance is shown to be lower than UV4 by between 2.5 % and 3.5 %, with a standard deviation of a similar magnitude. Total column ozone values are shown to agree with Dobson spectrophotometer values with a mean bias of 2.57 Dobson units (DU) and standard deviation of 1.15 DU when using the direct sun measurements. Aerosol optical depth at 400–412 and 500 nm agrees to within 0.015 and is comparable to the difference between the reference radiometers. Further work is needed, particularly in the radiometric calibration at longer wavelengths, in order to determine if this instrument can supersede or enhance measurements made by the Dobson spectrophotometer or the aerosol radiometers. [ABSTRACT FROM AUTHOR]

Published

2024

32. Establishment of Detection Model of Soybean Quality Traits by Near Infrared Spectroscopy.

Author

Weiran Gao, Ronghan Ma, Aohua Jiang, Jiaqi Liu, Pingting Tan, Fang Liu, and Jian Zhang

Subjects

*NEAR infrared spectroscopy, *SOYBEAN, *MONOCHROMATORS, *OLEIC acid, *STEARIC acid, *LINOLEIC acid

Abstract

Background: Rapid prediction with near infrared (NIR) spectroscopy on quality traits is pretty popular recently, for the convenience and simple operation. But to make good use of this technology, precise and suitable calibration equations are very important to get dependable result. In this study, we mostly refer to the building of the equation and how the pretreatment effect them. Methods: In this paper, near infrared (NIR) spectroscopy was used to simultaneously predict the quality traits of soybean, including oil content, protein content, oleic acid content, linoleic acid content, stearic acid content. Near infrared spectral data of a total of 112 samples is collected from given materials in Chongqing. Samples were scanned from 1000 nm to 2500 nm using a monochromator instrument (SuperNIR-2700). Calibration equations were developed from NIR data using partial least squares (PLS) regression with internal cross validation. In addition, in this study, we also cover the affection of different pre-treatments to the different calibration equations predicting different quality traits. And measure the effect with three indicators including R, SECV and RPD. Result: Eventually we find the most suitable combination of pre-treatments for each calibration equation predicting a certain trait soybean. The present study would lay the foundations of rapid detection of quality traits in soybean. [ABSTRACT FROM AUTHOR]

Published

2024

33. High-precision finishing method for narrow-groove channel-cut crystal x-ray monochromator using plasma chemical vaporization machining with wire electrode.

Author

Matsumura, Shotaro, Ogasahara, Iori, Osaka, Taito, Yabashi, Makina, Yamauchi, Kazuto, and Sano, Yasuhisa

Subjects

*CHEMICAL milling, *MONOCHROMATORS, *ETCHING techniques, *ATMOSPHERIC pressure, *SURFACE roughness, *POWER resources, *POLARITONS

Abstract

A channel-cut crystal monochromator (CCM) is a popular and powerful device for producing monochromatic x-ray beams with extreme angular stability at a nano-radian level. Narrowing the groove width of CCMs has various benefits; for example, it is made possible to design more compact CCMs with an equivalent working energy range and to reduce the optical delay and the amount of beam shift, enhancing compatibility with various experimental techniques. An obstacle to the use of narrow-groove CCMs is the lack of a high-precision finishing method for the inner-wall reflecting surfaces, which imposes the distortion of x-ray wavefronts and spectral purity. We propose a new, damage-free surface-finishing method for silicon CCMs with a narrow groove of 1 mm or less with a localized etching technique using plasma generated with a wire electrode of 50 µm diameter under atmospheric pressure. Repeating plasma-on and plasma-off periods with a pulsed power supply, we reduce the concentration of reaction products through self-diffusion during the plasma-off periods and minimize the redeposition of the products on the processed surface that deteriorates the surface roughness. Under optimized conditions, we processed a CCM with a groove width of 1.2 mm, which has uniform reflection profiles and a nearly ideal reflectivity behavior for coherent monochromatic x rays. [ABSTRACT FROM AUTHOR]

Published

2024

34. Determination of the Strain Tensor and the Elastic Stress Fields in a Diamond Plate with a High Bending Curvature Using Local Laue Diffraction Data.

Author

Digurov, R. V., Blank, V. D., Denisov, V. N., Martyushov, S. Yu., Sorokin, B. P., Terent'ev, S. A., and Polyakov, S. N.

Subjects

*STRAIN tensors, *STRAINS & stresses (Mechanics), *MONOCHROMATORS, *DIAMONDS, *OPTICAL devices, *CURVATURE, *DIFFUSION tensor imaging

Abstract

Cylindrically bent diamond single-crystal plates have a great potential for creating energy dispersive spectrometers and focusing crystal monochromators. When they are designed, it is necessary to take into account the significant stresses that appear on bending the plates. The strain tensor and the elastic stress fields in a cylindrically bent single-crystal (110) diamond plate are calculated. The calculations are based on experimental data obtained by local Laue diffraction. The calculation results can be used to design new X-ray optical devices with the ability to control their parameters. [ABSTRACT FROM AUTHOR]

Published

2023

35. Recent studies of highly oriented pyrolytic graphite and hybrid graphite-silicon monochromator systems.

Author

Freund, Andreas K., Krencisz, Dawn, Crosby, Mike, Chen, Changyong, Kozak, Brian, Mikula, Pavol, and Farkas, Gergely

Subjects

*PYROLYTIC graphite, *MONOCHROMATORS, *SILICON crystals, *NEUTRON beams, *X-rays

Abstract

The excellent performance of highly oriented pyrolytic graphite (HOPG) as monochromator, analyzer and filter material for neutron instrumentation was discovered more than 50 years ago. Even though HOPG has been in use for a long time, there is still room for improvements regarding its optimized use in neutron beam conditioning. The features of a novel concept called POSI based on careful x-ray characterization of the HOPG crystals and on proven mounting and focusing technologies show that the efficiency of HOPG monochromators can be increased while decreasing complexity and cost. Moreover, by combining HOPG and bent perfect silicon crystals the functionality of separate single monochromators and analyzers can be expanded to a wider range of applications provided by dual systems or bichromators. [ABSTRACT FROM AUTHOR]

Published

2023

36. Focusing High-Resolution Three-Axis Neutron Diffractometer for Investigations of Special Tasks of Powder Diffractometry.

Author

Mikula, Pavol, Ryukhtin, Vasyl, Strunz, Pavel, and Džugan, Jan

Subjects

*MONOCHROMATORS, *DIFFRACTOMETERS, *POLYCRYSTALS, *DIFFRACTION patterns, *STRAINS & stresses (Mechanics)

Abstract

Feasibility of focusing high-resolution three-axis diffractometer with the polycrystalline sample between the monochromator and the analyzer was tested for studies of finer effects of powder diffraction lines and for investigations of special tasks of powder diffractometry. The focusing 3-axis diffractometer set-up equipped with bent perfect crystal monochromator and analyzer offers the sensitivity in determination e.g. of strains in polycrystalline materials ε =Δd/d close to 10-5. Together with special tasks of strain/stress studies related namely, to plastic deformation, it permits to study a finer substructure of individual diffraction lines which can appear e.g. in case of polycrystalline alloys where more phases having very close values of the lattice spacing could exist. Resolution properties of the high-resolution diffractometer setting will be documented on several experimental results obtained on unconventional bulk samples. [ABSTRACT FROM AUTHOR]

Published

2023

37. Endurance – Modernisation of the instrumentation suite at the Institut Laue-Langevin.

Author

Dewhurst, Charles and Meyer, Andreas

Subjects

*GAMMA ray spectrometer, *PROTEIN crystallography, *BACKSCATTERING, *NEUTRON counters, *MONOCHROMATORS

Abstract

Endurance encompasses more than 30 new or upgraded instrument and infrastructure projects, rolled out over 8 years between 2016 and 2023. Many new or upgraded instruments have already been deployed and are in user-operation including: the fission-fragment gamma ray spectrometer, FIPPS; the upgraded cold-neutron TOF spectrometer IN5; new thermal TOF spectrometer PANTHER; and a second protein crystallography station, DALI. The D3 hot-neutron diffractometer and IN20 thermal triple-axis spectrometer have been upgraded while new and additional detectors for the SANS instruments D11 and D22 have been installed. The D16 cold-neutron diffractometer has been fully modernised and new coldneutron imaging instrument, NeXT, has been installed. Delivering a full suite of modernised instrumentation is dependent on the renewed in-pile beam extraction, H1-H2, new H24 (thermal) and H15 (cold) neutron guides and the in-house development and manufacture of critical technologies such as neutron detectors, monochromator optics and polarisation components. The new H24 guide provides dedicated endof-guide positions to the upgraded D10+ single crystal diffractometer, IN13 backscattering instrument and the new XtremeD powder and single-crystal diffractometer. H15 will accommodate a substantially upgraded D(00)7 polarised diffuse scattering and spectroscopy instrument while D11 will be rebuilt and relocated with an optically cleaner collimation. Two additional end-of-guide positions are available for new instrumentation: The SHARP+ cold-neutron TOF spectrometer and a 4th SANS instrument, SAM. The success of Endurance will provide users with a fully modernised suite of world-class instruments. [ABSTRACT FROM AUTHOR]

Published

2023

38. Fast tomography projection x-ray microscopy and transmission x-ray microscopy beamline at TPS of NSRRC.

Author

Song, Yen-Fang, Chiu, Chao-Chih, Lee, Ming-Han, Chen, Bo-Yi, Chiang, Liang-Chih, Liu, Chin-Yen, Chang, Chia-Feng, Lee, Chien-Yu, Hsu, Ming-Ying, Lin, Shang-Wei, and Yin, Gung-Chian

Subjects

*TOMOGRAPHY, *X-ray microscopy, *MAP projection, *SPATIAL resolution, *MONOCHROMATORS

Abstract

TPS 31A fast tomography and energy-resolved elemental mapping projection X-ray microscopy (PXM) and transmission X-ray microscopy (TXM) beamline of NSRRC is under construction and commissioning. This beamline will provide four operating modes including (1) PXM with white light mode, (2) PXM with double multilayer monochromator (DMM) mode, (3) PXM with double crystal monochromator (DCM) mode, and (4) TXM with double crystal monochromator (DCM) mode. All modes are capable of absorption contrast and phase contrast of images. The spatial resolution of three PXM modes is 0.5 µm. The field of view of PXM-white light, PXM-DMM, and PXM-DCM mode is 25×18 cm2, 25×10 mm2 and 25×3 mm2, respectively. The temporal resolution of PXM modes can approach 1ms/frame and 45 sec/tomography. The in operando tomography and energy-resolved elemental mapping within 2D image as well as tomography are feasible. The spatial resolution and field of view of TXM mode is expected as 30 nm and 30 µm, respectively. The energy-resolved elemental mapping within 2D image and tomography is practical. [ABSTRACT FROM AUTHOR]

Published

2023

39. Resonant X-ray emission spectroscopy using self-seeded hard X-ray pulses at PAL-XFEL.

Author

Tae-Kyu Choi, Jaeku Park, Gyujin Kim, Hoyoung Jang, Sang-Youn Park, Jang Hyeob Sohn, Byoung Ick Cho, Hyunjung Kim, Kyung Sook Kim, Inhyuk Nam, and Sae Hwan Chun

Subjects

*X-ray emission spectroscopy, *HARD X-rays, *MONOCHROMATORS, *DIAMOND crystals, *X-ray spectroscopy, *PARTICLE beam bunching, *ULTRASHORT laser pulses, *SILICON crystals

Abstract

Self-seeded hard X-ray pulses at PAL-XFEL were used to commission a resonant X-ray emission spectroscopy experiment with a von Hamos spectrometer. The self-seeded beam, generated through forward Bragg diffraction of the [202] peak in a 100 mm-thick diamond crystal, exhibited an average bandwidth of 0.54 eVat 11.223 keV. A coordinated scanning scheme of electron bunch energy, diamond crystal angle and silicon monochromator allowed us to map the Ir Lβ2 X-ray emission lines of IrO2 powder across the Ir L3-absorption edge, from 11.212 to 11.242 keV with an energy step of 0.3 eV. This work provides a reference for hard X-ray emission spectroscopy experiments utilizing self-seeded pulses with a narrow bandwidth, eventually applicable for pump--probe studies in solid-state and diluted systems. [ABSTRACT FROM AUTHOR]

Published

2023

40. Passive doubly curved structures for determining clamping forces applied to X-ray optic assemblies.

Author

Bainbridge, Eleanor Victoria, Griffiths, Jonathan David, Patel, Hiten, Clunan, Jessica, and Docker, Peter

Subjects

*OPTICAL distortion, *X-ray optics, *MONOCHROMATORS, *LIFE cycles (Biology), *DISPLACEMENT (Mechanics), *LASER measurement

Abstract

Clamping of indirectly cryogenically cooled X-ray optics is required to ensure effective heat transfer between the optic and heat exchanger. However, clamping forces can result in distortion of the optical surface of monochromators and mirror systems, which causes angular distortions of the subsequent beam. As such, there is a need for greater understanding of how these optics are assembled and how this affects their performance throughout their life cycle. In this paper, the potential for non-contact, in-process monitoring of the clamping force both during and after assembly using an additively manufactured passive structure based on a doubly curved hyperbolic paraboloid and designed for application to the first crystal for the I20 monochromator at Diamond Light Source is investigated numerically and experimentally. The performance of the passive structure both pre- and post-cryogenic quenching is characterized experimentally. Laser displacement measurements reveal approximately 9 mm total displacement in the passive structure per 100 N of bolt preload, corresponding to an effective magnification of the preload adjustment of approximately 2.5x. [ABSTRACT FROM AUTHOR]

Published

2023

41. Absolute calibration of the spectral sensitivity of an x-ray streak camera over the 0.1–10 keV spectral range equipped with CsI photocathode.

Author

Hubert, S. and Boubault, F.

Subjects

*SPECTRAL sensitivity, *PHOTOCATHODES, *MONOCHROMATORS, *X-rays, *SILICON detectors, *SOFT X rays, *CAMERAS

Abstract

In this paper, we report the absolute measurement of the spectral sensitivity of a bilamellar tube x-ray streak camera (XRSC) over the 0.1–10 keV range equipped with a CsI photocathode for Laser MégaJoule (LMJ) fusion experiments. This calibration of the XRSC is performed in static mode by using two multi-anode x-ray generators. Two silicon drift detectors (SDDs) previously calibrated at the Physikalisch–Technische–Bundesanstalt radiometric laboratory are used as secondary standards. Both x-ray generators work with a specific monochromator for radiometric measurements. In the sub-keV region, a 1 m-grazing incidence Rowland geometry monochromator specifically developed to handle LMJ's x-ray camera is used, whereas for higher energies (>2 keV), a double-crystal monochromator is employed. The absolute spectral sensitivity of the XRSC is obtained by comparing the CCD counts of the XRSC output with the output counts in x-ray lines recorded by the SDD. The results obtained below 1.2 keV are, to our knowledge, the first measurements of the spectral sensitivity of an XRSC in the soft x-ray range with a CsI photocathode. Comparison with a model describing the spectral dependence of the sensitivity of the XRSC revealed that measurements obtained in the sub-keV region are greater than expected, whereas they agree with the model above 4.5 keV. There may be several contributors to this behavior, including the grain morphology of the CsI layer and exposure to air. [ABSTRACT FROM AUTHOR]

Published

2023

42. Large-view x-ray imaging for medical applications using the world's only vertically polarized synchrotron radiation beam and a single asymmetric Si crystal.

Author

Kamezawa, Chika, Hyodo, Kazuyuki, Tokunaga, Chiho, Tsukada, Toru, and Matushita, Shonosuke

Subjects

*X-ray imaging, *MONOCHROMATORS, *DIAGNOSTIC imaging, *SYNCHROTRON radiation, *X-ray optics, *SPATIAL resolution, *CARDIOVASCULAR system

Abstract

Objective. X-ray microangiography provides detailed information on the internal structure and function of a biological subject. Its ability to evaluate the microvasculature of small animals is useful for acquiring basic and clinical medical knowledge. The following three conditions are necessary to attain detailed knowledge of biological functions: (1) high temporal resolution with sufficient x-ray intensity, (2) high spatial resolution, and (3) a wide field of view. Because synchrotron radiation microangiography systems provide high sapatial resolution and high temporal resolution as a result of their high x-ray intensity, such systems have been developed at various synchrotron radiation facilities, starting with the photon factory, leading to numerous medical discoveries. However, the three aforementioned functions are incompatible with the use of synchrotron radiation because the x-ray intensity decreases when a wide field of view is obtained. To overcome these problems, we developed a new x-ray optical system for microangiography in rats using synchrotron radiation x-rays. Approach. Instead of using monochromatic synchrotron radiation x-rays with a conventional double-crystal monochromator, we used white synchrotron radiation x-rays and an asymmetric Si crystal to simultaneously monochromatize the beam and widen the field of view. Main results. The intensity profile and spatial resolution of the x-ray images were then evaluated. The proposed x-ray optics increased the x-ray intensity and beam width by factors of 1.3 and 2.7, respectively, compared with those of conventional monochromatic x-rays. In addition, in vivo studies on microangiography in rats were performed to confirm that the images had sufficient intensity, spatial resolution, and field of view. One of a series of images taken at 50 ms frame−1 was shown as an example. Significance. This x-ray optics provides sufficient x-ray intensity, high spatial resolution, and a wide field of view. This technique is expected providing new insights into the evaluation of the vascular system. [ABSTRACT FROM AUTHOR]

Published

2023

43. Silicon-nitride-based entrance slit design for the high-power-density monochromator in TPS 45A.

Author

Ming Ying Hsu, Huang Wen Fu, Hok Sum Fung, Chih Yu Hua, Liang Jen Huang, and Huang Ming Tsai

Subjects

*MONOCHROMATORS, *SILICON nitride, *COPPER, *THERMAL expansion

Abstract

Details of the design and operational status of the silicon-nitride-based entrance slit installed in the Taiwan Photon Source (TPS) 45A beamline are given. The slit is a diamond blade edge etched onto a copper slit part, which is in thermal contact with the silicon nitride base. A stable slit opening smaller than 4 mm is achieved in TPS 45A. The beam size at the slit has a full width at half-maximum of 3 mm in the vertical direction with a power of 20 W. Additionally, a hard stop made of invar is incorporated to control the thermal expansion displacement. The slit reduces the size and increases the stability of the source of the monochromator. Consequently, a higher energy resolution and excellent beamline stability are achieved. [ABSTRACT FROM AUTHOR]

Published

2023

44. Developments in X-Ray Optics Modelling at Diamond Light Source.

Author

Sutter, John P., Alianelli, Lucia, Hu, Lingfei, Khosroabadi, Hossein, Walters, Andrew, Hand, Matthew, Wang, Hongchang, and Sawhney, Kawal

Subjects

*LIGHT sources, *X-ray optics, *MONOCHROMATORS, *FREE electron lasers, *DIFFRACTION gratings, *GEOMETRICAL optics, *MIRRORS

Abstract

This article discusses the importance of accurate theoretical modeling in the design of X-ray beamlines at synchrotrons and free electron lasers. The Optics & Metrology group at Diamond Light Source (DLS) has developed analytical models and used software packages for ray tracing and wavefront propagation to predict the performance of X-ray beamlines. The article presents two analytical approaches developed for modeling soft X-ray beamlines, using MATLAB and IGOR Pro. It also discusses a theoretical model for investigating the thermal distortion of cryo-cooled silicon crystals used as monochromators in hard X-ray synchrotron beamlines. These modeling tools have been used to improve beamline design at Diamond Light Source and other synchrotrons. [Extracted from the article]

Published

2023

45. Efficiency increase in multijunction monochromatic photovoltaic devices due to luminescent coupling.

Author

Xia, Daixi and Krich, Jacob J.

Subjects

*SOLAR cells, *MONOCHROMATORS, *LOW voltage systems

Abstract

We present a multijunction detailed-balance model that includes the effects of luminescent coupling, light trapping, and nonradiative recombination, suitable for the treatment of multijunction solar cells and photonic power converters—photovoltaic devices designed to convert the narrow-band light. The model includes both specular and Lambertian reflections using a ray-optic formalism and treats nonradiative processes using an internal radiative efficiency. Using this model, we calculate and optimize the efficiency of multijunction photonic power converters for a range of material qualities and light-trapping schemes. Multijunction devices allow increased voltage with lower current, decreasing series resistance losses. We show that efficiency increases significantly with an increased number of junctions, even without series resistance, when the device has an absorbing substrate. Such an increase does not occur when the device has a back reflector. We explain this effect using a simplified model, which illustrates the origin of the decreased radiative losses in multijunction devices on substrates. [ABSTRACT FROM AUTHOR]

Published

2020

46. Towards a wavefront-preservation X-ray crystal monochromator for high-repetition-rate FELs.

Author

Lin Zhang, Seaberg, Matthew, and Yavaș, Hasan

Subjects

*FREE electron lasers, *MONOCHROMATORS, *SILICON crystals, *X-ray optics, *CRYSTALS, *X-ray lasers, *X-ray scattering

Abstract

The wavefront preservation of coherent X-ray free-electron laser beams is pushing the requirement on the quality and performance of X-ray optics to an unprecedented level. The Strehl ratio can be used to quantify this requirement. In this paper, the criteria for thermal deformation of the X-ray optics are formulated, especially for crystal monochromators. To preserve the X-ray wavefront, the standard deviation of the height error should be sub-nm for mirrors and less than 25 pm for crystal monochromators. Cryocooled silicon crystals combined with two techniques can be used to achieve this level of performance for monochromator crystals: (1) using a focusing element to compensate the second-order component of the thermal deformation; (2) introducing a cooling pad between the cooling block and silicon crystal and optimizing the effective cooling temperature. Each of these techniques allows the thermal deformation in standard deviation of the height error to be reduced by an order of magnitude. As an example, for the LCLS-II-HE Dynamic X-ray Scattering instrument, the criteria on thermal deformation of a high-heat-load monochromator crystal can be achieved for a 100 W SASE FEL beam. Wavefront propagation simulations confirm that the reflected beam intensity profile is satisfactory on both the peak power density and focused beam size. [ABSTRACT FROM AUTHOR]

Published

2023

47. Novel use of a Bentham UV Double Monochromator for measurements of global and direct irradiance, ozone and aerosol.

Author

Geddes, Alexander, Liley, Ben, McKenzie, Richard, Kotkamp, Michael, and Querel, Richard

Subjects

*SPECTRAL irradiance, *RADIOMETERS, *SPECTROPHOTOMETERS, *AEROSOLS, *OZONE, *MONOCHROMATORS, *ULTRAVIOLET spectrometers, *STANDARD deviations

Abstract

A novel ultraviolet spectrometer has been developed and tested over 10 years at Lauder, New Zealand. The system, UV2, makes alternating measurements of the global and direct UV irradiance and can therefore be used to measure ozone and aerosol optical depth. After an analysis of the stability of UV2, these measurements, along with UV irradiance are compared to relevant observations made by an additional UV spectrometer (UV4), a Dobson spectrophotometer (#72) and two radiometers measuring aerosol optical depth, a Prede skyradiometer and a Middleton Solar radiometer (SP02). UV2 irradiance is shown to be lower than UV4 by between 2.5-3.5%, with a standard deviation of a similar magnitude. Total column ozone values are shown to agree with Dobson values with a mean bias of 2.57 Dobson units (DU) and standard deviation of 1.15 DU when using the direct sun measurements. Aerosol optical depth at 400-412nm and 500nm agrees to within 0.015 and is comparable to the difference between the reference radiometers. Further work is needed, particularly in the radiometric calibration at longer wavelengths, in order to determine if this instrument can supersede or enhance measurements made by the Dobson or the aerosol radiometers. [ABSTRACT FROM AUTHOR]

Published

2023

48. Statistical Theory of X-ray Diffraction Phase Contrast Formation.

Author

Bushuev, V. A.

Subjects

*X-ray diffraction, *MONOCHROMATORS, *REFRACTIVE index, *RADIATION

Abstract

A successive consideration of the formation of X-ray diffraction phase contrast of weakly absorbing noncrystalline objects with statistically distributed small-scale density inhomogeneities has been performed. It was assumed that the incident X-ray beam has an arbitrary degree of spatial coherence, and the changes in the statistical characteristics of this radiation during Bragg diffraction reflection from the monochromator and analyzer were taken into account. The phenomena of the increase and/or decrease in the phase contrast from regions with randomly distributed microcalcifications, in dependence of their rms sizes, relative refractive index decrement, and the lengths of spatial coherence of radiation and phase correlation as a result of diffraction-enhanced diffuse scattering are explained. [ABSTRACT FROM AUTHOR]

Published

2023

49. Sub‐second pair distribution function using a broad bandwidth monochromator.

Author

Magnard, Nicolas P. L., Sørensen, Daniel R., Kantor, Innokenty, Jensen, Kirsten M. Ø., and Jørgensen, Mads R. V.

Subjects

*DISTRIBUTION (Probability theory), *METAL clusters, *MONOCHROMATORS, *BANDWIDTHS, *X-ray scattering, *SYNCHROTRON radiation

Abstract

Here the use of a broad energy bandwidth monochromator, i.e. a pair of B4C/W multilayer mirrors (MLMs), is demonstrated for X‐ray total scattering (TS) measurements and pair distribution function (PDF) analysis. Data are collected both on powder samples and from metal oxo clusters in aqueous solution at various concentrations. A comparison between the MLM PDFs and those obtained using a standard Si(111) double‐crystal monochromator shows that the measurements yield MLM PDFs of high quality which are suitable for structure refinement. Moreover, the effects of time resolution and concentration on the quality of the resulting PDFs of the metal oxo clusters are investigated. PDFs of heptamolybdate clusters and tungsten α‐Keggin clusters from X‐ray TS data were obtained with a time resolution down to 3 ms and still showed a similar level of Fourier ripples to PDFs obtained from 1 s measurements. This type of measurement could thus open up faster time‐resolved TS and PDF studies. [ABSTRACT FROM AUTHOR]

Published

2023

50. Ionization potentials of metal clusters studied with a broad range, tunable vacuum ultraviolet light source.

Author

Macion, A. and Schäfer, R.

Subjects

*IONIZATION energy, *LIGHT sources, *ULTRAVIOLET radiation, *METAL clusters, *PHOTOIONIZATION, *MONOCHROMATORS, *ISOMERS

Abstract

In this work, we present an alternative to complex laser setups or synchrotron light sources to accurately measure the ionization potentials of metal clusters. The setup is based on a commercial Xe flash lamp, combined with a vacuum monochromator, and has been applied to determine the ionization potentials of Snn clusters with n = 8–12 atoms. The uncertainty in the determination of the ionization potentials is mainly caused by the bandwidth of the monochromator. The adiabatic ionization potentials (AIPs) are extracted from experimental photoionization efficiency curves. Franck–Condon simulations are additionally used to interpret the shape and onset of the photo-ion yield. The obtained AIPs are (all energies are in eV) Sn8 (6.53 ± 0.05), Sn9 (6.69 ± 0.04), Sn10 (6.93 ± 0.03), Sn11 (6.34 ± 0.05), and Sn12 (IsoI 6.64 ± 0.04 and IsoIII 6.36 ± 0.05). Furthermore, the impact of multiple isomers present in the experiment on the photo-ion yield is addressed and compared with other experimental data in the literature. [ABSTRACT FROM AUTHOR]

Published

2023