Fredrik Uhlén scite author profile

The emergence of hard X-ray free electron lasers (XFELs) enables new insights into many fields of science. These new sources provide short, highly intense, and coherent X-ray pulses. In a variety of scientific applications these pulses need to be strongly focused. In this article, we demonstrate focusing of hard X-ray FEL pulses to 125 nm using refractive x-ray optics. For a quantitative analysis of most experiments, the wave field or at least the intensity distribution illuminating the sample is needed. We report on the full characterization of a nanofocused XFEL beam by ptychographic imaging, giving access to the complex wave field in the nanofocus. From these data, we obtain the full caustic of the beam, identify the aberrations of the optic, and determine the wave field for individual pulses. This information is for example crucial for high-resolution imaging, creating matter in extreme conditions, and nonlinear x-ray optics.

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Ronchi test for characterization of nanofocusing optics at a hard x-ray free-electron laser

Nilsson

Uhlén

Holmberg

et al. 2012

Opt. Lett.

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We demonstrate the use of the classical Ronchi test to characterize aberrations in focusing optics at a hard x-ray free-electron laser. A grating is placed close to the focus and the interference between the different orders after the grating is observed in the far field. Any aberrations in the beam or the optics will distort the interference fringes. The method is simple to implement and can provide single-shot information about the focusing quality. We used the Ronchi test to measure the aberrations in a nanofocusing Fresnel zone plate at the Linac Coherent Light Source at 8.194 keV.

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Damage investigation on tungsten and diamond diffractive optics at a hard x-ray free-electron laser

Uhlén¹,

Nilsson²,

Holmberg³

et al. 2013

Opt. Express

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Focusing hard x-ray free-electron laser radiation with extremely high fluence sets stringent demands on the x-ray optics. Any material placed in an intense x-ray beam is at risk of being damaged. Therefore, it is crucial to find the damage thresholds for focusing optics. In this paper we report experimental results of exposing tungsten and diamond diffractive optics to a prefocused 8.2 keV free-electron laser beam in order to find damage threshold fluence levels. Tungsten nanostructures were damaged at fluence levels above 500 mJ/cm(2). The damage was of mechanical character, caused by thermal stress variations. Diamond nanostructures were affected at a fluence of 59 000 mJ/cm(2). For fluence levels above this, a significant graphitization process was initiated. Scanning Electron Microscopy (SEM) and µ-Raman analysis were used to analyze exposed nanostructures.

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Focusing XFEL SASE pulses by rotationally parabolic refractive x-ray lenses

Seiboth

Schropp

Hoppe

et al. 2014

J. Phys.: Conf. Ser.

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Fredrik Uhlén

Full spatial characterization of a nanofocused x-ray free-electron laser beam by ptychographic imaging

Ronchi test for characterization of nanofocusing optics at a hard x-ray free-electron laser

Damage investigation on tungsten and diamond diffractive optics at a hard x-ray free-electron laser

Focusing XFEL SASE pulses by rotationally parabolic refractive x-ray lenses

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