Ruben Khachatryan scite author profile

Optical spectrometers, instruments that work with monochromatic light, are commonly rated by the spectral bandwidth, which defines the ability to resolve closely spaced spectral components. The ability to detect faint objects among these components, spectral contrast, is another desired aspect.Here we demonstrate that a combined effect of angular dispersion (AD) and anomalous transmission (AT) of x rays in Bragg reflection from asymmetrically cut crystals can shape spectral distributions of x rays to profiles with record high contrast and small bandwidths.The AD&AT x-ray optics is implemented as a five-reflection three-crystal arrangement featuring a combination of the above mentioned attributes, so much desirable for x-ray monochromators and analyzers: a spectral contrast of 500, a bandwidth of 0.46 meV and a remarkably large angular acceptance of 107 µrad. The new optics can become a foundation for the next generation inelastic x-ray scattering spectrometers for studies of atomic dynamics.

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MERIX—Next generation medium energy resolution inelastic X-ray scattering instrument at the APS

Shvyd’ko

Hill

Burns

et al. 2013

Journal of Electron Spectroscopy and Related Phenomena

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X-Ray Interferometry with Microelectronvolt Resolution

et al. 2003

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Spherical analyzers and monochromators for resonant inelastic hard X-ray scattering: a compilation of crystals and reflections

et al. 2012

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Resonant inelastic X-ray scattering (RIXS) experiments require special sets of near-backscattering spherical diced analyzers and high-resolution monochromators for every distinct absorption-edge energy or emission line. For the purpose of aiding the design and planning of efficient RIXS experiments, a compilation of suitable crystal materials and viable reflections for hard X-rays, together with energy resolution and throughput information, is presented.

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Achromatic nested Kirkpatrick–Baez mirror optics for hard X-ray nanofocusing

et al. 2011

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The first test of nanoscale-focusing Kirkpatrick-Baez (KB) mirrors in the nested (or Montel) configuration used at a hard X-ray synchrotron beamline is reported. The two mirrors are both 40 mm long and coated with Pt to produce a focal length of 60 mm at 3 mrad incident angle, and collect up to a 120 mm by 120 mm incident X-ray beam with maximum angular acceptance of 2 mrad and a broad bandwidth of energies up to 30 keV. In an initial test a focal spot of about 150 nm in both horizontal and vertical directions was achieved with either polychromatic or monochromatic beam. The nested mirror geometry, with two mirrors mounted side-by-side and perpendicular to each other, is significantly more compact and provides higher demagnification than the traditional sequential KB mirror arrangement. Ultimately, nested mirrors can focus larger divergence to improve the diffraction limit of achromatic optics. A major challenge with the fabrication of the required mirrors is the need for nearperfect mirror surfaces near the edge of at least one of the mirrors. Special polishing procedures and surface profile coating were used to preserve the mirror surface quality at the reflecting edge. Further developments aimed at achieving diffraction-limited focusing below 50 nm are underway.

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