Pregled bibliografske jedinice broj: 245366
Design and performance of the flexural hinge-based mirror bender at the SLS protein crystallography beamline X06SA
Design and performance of the flexural hinge-based mirror bender at the SLS protein crystallography beamline X06SA // Proceedings of the SPIE, International Society for Optical Engineering, 4782 (2002), 86-93 (podatak o recenziji nije dostupan, kongresno priopcenje, znanstveni)
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Naslov
Design and performance of the flexural hinge-based mirror bender at the SLS protein crystallography beamline X06SA
Autori
Rossetti, Daniel ; Lienert, Ulrich ; Pradervand, Claude ; Schneider, Roman ; Shi, Ming ; Zelenika, Saša ; Rossat, Michel ; Hignette, Olivier ; Rommeveaux, Amparo ; Schulze-Briese, Clemens
Izvornik
Proceedings of the SPIE, International Society for Optical Engineering (0277-786X) 4782
(2002);
86-93
Vrsta, podvrsta i kategorija rada
Radovi u časopisima, kongresno priopcenje, znanstveni
Ključne riječi
mirror focussing; flexural hinge; aspherization; undulator radiation; protein crystallography
Sažetak
The mirror bender installed at the SLS protein crystallography beamline is designed to be capable of adjusting the vertical phase space of the undulator to the acceptance of protein crystals, i.e. to produce micro-beams as well as essentially parallel beams. The two-moment bender is based on the flexural hinge design pioneered at the ESRF but adapted to high-vacuum by making use of in-vacuum motors and high resolution worm-gears. Special care was taken in the design and fabrication of the clamps and the application of the clamping torque. The Rh-coated fused silica substrate (Zeiss) has a free length of 400 mm and a thickness of 30 mm. Metrology tests at ESRF inidicate the high quality of the mirror and the bender. Over the useful length of 350 mm the meridional slope error was found to be 0.17-0.3 microradians (rms) prior to, and less than 0.5 microradians after clamping to the bender. In paractice this allows the full central cone of an in-vacuum undulator to be focussed to 7 micrometers at an image distance of 7.1 m and 2.1 micrometers at 1.75 m, corresponding to effective slope errors of less than 0.25 microradians. The bending is very reproducible and is well described by an interaction matrix. Finally, the long range tails were measured in the context of the generation of fs-pulses by means of bunch slicing. Their level cannot be attributed to the surface roughness of 2.9 A (rms) but rather to scattering from other beamline components such as Be-windows.
Izvorni jezik
Engleski
Znanstvena područja
Fizika, Strojarstvo
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