Thomas Nisius scite author profile

Coherent diffractive imaging for the reconstruction of a two-dimensional (2D) finite crystal structure with a single pulse train of free-electron laser radiation at 7.97 nm wavelength is demonstrated. This measurement shows an advance on traditional coherent imaging techniques by applying it to a periodic structure. It is also significant that this approach paves the way for the imaging of the class of specimens which readily form 2D, but not three-dimensional crystals. We show that the structure is reconstructed to the detected resolution, given an adequate signal-to-noise ratio.

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Resonant magnetic scattering with soft x-ray pulses from a free-electron laser operating at 1.59 nm

Gutt¹,

Stadler²,

Streit-Nierobisch³

et al. 2009

Phys. Rev. B

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We report on a resonant magnetic scattering experiment using soft x-ray pulses generated from a freeelectron laser ͑FEL͒. The free-electron laser was operated at a fundamental wavelength of 7.97 nm and radiation at the fifth harmonic originating from self-amplified stimulated emission at 1.59 nm with an average energy of 4 nJ per pulse was detected. We demonstrate the feasibility of resonant magnetic scattering at FEL sources by using a Co/Pd multilayer as prototype sample that was illuminated with 20-fs-long soft x-ray pulses tuned to the Co L 3 absorption edge at 778.1 eV ͑1.59 nm͒.

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Digital In-line Holography with femtosecond VUV radiation provided by the free-electron laser FLASH

Rosenhahn¹,

Staier²,

Nisius³

et al. 2009

Opt. Express

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Femtosecond vacuum ultraviolet (VUV) radiation provided by the free-electron laser FLASH was used for digital in-line holographic microscopy and applied to image particles, diatoms and critical point dried fibroblast cells. To realize the classical in-line Gabor geometry, a 1 microm pinhole was used as spatial filter to generate a divergent light cone with excellent pointing stability. At a fundamental wavelength of 8 nm test objects such as particles and diatoms were imaged at a spatial resolution of 620 nm. In order to demonstrate the applicability to biologically relevant systems, critical point dried rat embryonic fibroblast cells were for the first time imaged with free-electron laser radiation.

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Scanning transmission X-ray microscopy with efficient X-ray fluorescence detection (STXM-XRF) for biomedical applications in the soft and tender energy range

et al. 2019

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Scanning transmission X-ray microscopy, especially in combination with X-ray fluorescence detection (STXM-XRF) in the soft X-ray energy range, is becoming an increasingly important tool for life sciences. Using X-ray fluorescence detection, the study of biochemical mechanisms becomes accessible. As biological matrices generally have a low fluorescence yield and thus a low fluorescence signal, high detector efficiency (e.g. large solid angle) is indispensable for avoiding long measurement times and radiation damage. Here, the new AnImaX STXM-XRF microscope equipped with a large solid angle of detection enabling fast scans and the first proof-of-principle measurements on biomedical samples are described. In addition, characterization measurements for future quantitative elemental imaging are presented. research papers J. Synchrotron Rad. (2019). 26, 430-438 Lars Lü hl et al. Biomedical applications of STXM-XRF in the soft/tender energy range research papers J. Synchrotron Rad. (2019). 26, 430-438 Lars Lü hl et al. Biomedical applications of STXM-XRF in the soft/tender energy range research papers 436 Lars Lü hl et al. Biomedical applications of STXM-XRF in the soft/tender energy range J. Synchrotron Rad. (2019). 26, 430-438Figure 7Transmission image (top) and pseudo-colour image (bottom) for C (blue, BAT) and Fe (red, SPIO) for control tissue.

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Thomas Nisius

Coherent imaging of biological samples with femtosecond pulses at the free-electron laser FLASH

Coherent-Pulse 2D Crystallography Using a Free-Electron Laser X-Ray Source

Resonant magnetic scattering with soft x-ray pulses from a free-electron laser operating at 1.59 nm

Digital In-line Holography with femtosecond VUV radiation provided by the free-electron laser FLASH

Scanning transmission X-ray microscopy with efficient X-ray fluorescence detection (STXM-XRF) for biomedical applications in the soft and tender energy range

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