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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.
The constant-strut-length hexapod design used in this switching mirror unit is adapted from that of the EMIL beamlines hexapods (see projects P405 to P412).
This mirror unit for the soft X-ray beamline at the Korean XFEL features a cardanic mount to realize the required degrees of freedom. B4C beam blocking provisions are integrated in the system.
This soft X-ray deflecting mirror unit is part of the SIX beamline, dedicated to high resolution soft X-ray scattering experiments. Energy resolution and pointing stability are here of crucial importance. It features an adapted constant-strut-length mechanism accounting for space constraints due to the proximity to the experimental station of the resonant innelastic X-ray scattering spectrometer (RIXS).
The constant-strut-length hexapod design used in this soft X-ray deflecting mirror unit is adapted from that of the EMIL beamlines hexapods (see projects P405 to P412).
This hard X-ray switching mirror unit is part of the combined hard and soft X-ray EMIL beamlines at BESSY. It features an optimized design of the constant-strut-length hexapod mechanism used for the first Bestec hexapod (see project P377). The mirror switching is realized by a vertical movement. The vacuum chamber accomodates not only the actual beam but also the passing…
The constant-strut-length hexapod design used in this soft X-ray deflecting mirror unit is adapted from that of the EMIL beamlines hexapods (see projects P405 to P412). This mirror unit is part of the SIX beamline, dedicated to high resolution soft X-ray scattering experiments. Energy resolution and pointing stability are here of crucial importance.
This mirror unit features a cardanic mount to realize the required degrees of freedom. The challenge was to accomodate all components within the lateral space constrains in the M1 hutch of the ESM beamline at NSLS-II. Special attention was payed to block zero-order and stray light by using several water cooled masks and beam stops.
This mirror unit features a cardanic mount to realize the required degrees of freedom. The challenge was to accomodate all components within the lateral space constrains in the M1 hutch of the SIX beamline at NSLS-II. Special attention was payed to block zero-order and stray light by using several water cooled masks and beam stops.
This hard X-ray split mirror unit is part of the combined hard and soft X-ray EMIL beamlines at BESSY. It features an optimized design of the constant-strut-length hexapod mechanism used for the first Bestec hexapod (see project P377). The mirror splitting is realized by a vertical movement. The vacuum chamber accomodates not only the actual beam but also the passing…
This soft X-ray deflection mirror unit is part of the combined hard and soft X-ray EMIL beamlines at BESSY. It features an optimized design of the constant-strut-length hexapod mechanism used for the first Bestec hexapod (see project P377). The vacuum chamber accomodates not only the actual beam but also the passing soft and hard X-ray beams of the neighbouring branches.
This soft X-ray split mirror unit is part of the combined hard and soft X-ray EMIL beamlines at BESSY. It features an optimized design of the constant-strut-length hexapod mechanism used for the first Bestec hexapod (see project P377). The mirror splitting is realized by a vertical movement. The vacuum chamber accomodates not only the actual beam but also the passing…
This hard X-ray deflection mirror unit is part of the combined hard and soft X-ray EMIL beamlines at BESSY. It features an optimized design of the constant-strut-length hexapod mechanism used for the first Bestec hexapod (see project P377). The vacuum chamber accomodates not only the actual beam but also the passing soft X-ray beam of the neighbouring branch.
This soft X-ray deflecting mirror unit is part of the combined hard and soft X-ray EMIL beamlines at BESSY. It features an optimized design of the constant-strut-length hexapod mechanism used for the first Bestec hexapod (see project P377). The vacuum chamber accomodates not only the actual beam but also the passing hard X-ray beam of the neighbouring branch.
For this collimating mirror unit we developed the constant-strut-length hexapod mechanism, which allows for a motorized movement in six degrees of freedom. Exceptionally large ranges can be covered with very high speed and positioning repeatability. The large rotational roll range travelled in a few seconds enables polarization switching e.g. for XMCD experiments.
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