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The hexapod units for the MIFO beamline of the PTB at BESSY feature the lastest updates of the hexapod design for compact size, straightforward alignment, and calibration at reliably excellent performance.
This laser plasma source is designed for high intensity, source stability and service life using relatively low-cost solid targets. The spectrum of the emitted radiation can be changed by using different target materials.
The hRIXS for the SCS beamline had to be developed as a mobile instrument regardless of its size and stability requirements to allow for the use of different experimental stations at the beamline. The optical design without beam focusing or collimation in the non-dispersive direction required large diameter bellows between the grating and the detector module and thereby an appropriate…
This soft X-ray diffractometer also serves as a low-temperature sample station for the hRIXS at the SCS beamline at the European XFEL. A triple rotating flange system is integrated into the vacuum chamber allowing for variation of the angle of the scattered radiation from the sample, which is analyzed in the hRIXS. Alignment and sample transfer can be controlled remotely,…
This grating unit was developed and built to be integrated into the high energy resolution hRIXS system at SCS instrument of the European XFEL. The challenge was to accomodate all components for standard functionality and for compensation of spectrometer related spurious movements into a very limited space, without perfomance lost.
This very compact experimental station was designed for near ambient pressure operation at the SCS beamline of the European XFEL. A short differential pumping unit had to account for a pressure factor of 106. Alignment can be controlled remotely, considering access and space constrains at the installation site.
This mirror unit for the VNIIOFI beamline at the KSRS features a cartesian constant-strut-length hexapod mechanism to realize the required degrees of freedom. The cartesian design allows for intuitive manual mirror alignment.
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