科技报告详细信息
Set Up and Test Results for a Vibrating Wire System for Quadrupole Fiducialization
Levashov, Michael Y.
关键词: ALIGNMENT;    ELECTRON BEAMS;    PERFORMANCE;    POSITIONING;    QUADRUPOLES;    WIGGLER MAGNETS;    BEAM MONITORS;    WIRES;    MECHANICAL VIBRATIONS;    BEAM POSITION;    LIGHT SOURCES;    FREE ELECTRON LASERS;    LINEAR ACCELERATORS;    TESTING XFEL;   
DOI  :  10.2172/993730
RP-ID  :  SLAC-TN-10-059
PID  :  OSTI ID: 993730
Others  :  TRN: US1100056
学科分类:核物理和高能物理
美国|英语
来源: SciTech Connect
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【 摘 要 】

Quadrupoles will be placed between the undulator segments in LCLS to keep the electron beam focused as it passes through. The quadrupoles will be assembled with their respective undulator segments prior to being placed into the tunnel. Beam alignment will be used to center the quadrupoles, along with the corresponding undulators, on the beam. If there is any displacement between the undulator and the quadrupole axes in the assemblies, the beam will deviate from the undulator axis. If it deviates by more than 80{micro}m in vertical or 140{micro}m in horizontal directions, the undulator will not perform as required by LCLS. This error is divided between three sources: undulator axis fiducialization, quadrupole magnetic axis fiducialization, and assembly of the two parts. In particular, it was calculated that the quadrupole needs to be fiducialized to within 25{micro}m in both vertical and horizontal directions. A previous study suggested using a vibrating wire system for finding the magnetic axis of a quadrupole. The study showed that the method has high sensitivity (up to 1{micro}m) and laid out guidelines for constructing it. There are 3 steps in fiducializing the quadrupole with the vibrating wire system. They are positioning the wire at the magnet center (step 1), finding the wire with position detectors (step 2), and finding the quadrupole tooling ball positions relative to the position detector tooling balls (step 3). The following break up of error was suggested for the fiducialization steps: 10{micro}m for step 1 (finding the center), 20{micro}m for step 2 (finding the wire), and 10{micro}m for step 3 (tooling ball measurements). The purpose of this study is to investigate whether the vibrating wire system meets the requirements for LCLS. In particular, if it can reliably fiducialize a quadrupole magnetic center to within 25{micro}m in both vertical and horizontal directions. The behavior of individual system components is compared to the expected performance. A vibrating wire system was constructed to fiducialize the quadrupoles between undulator segments in the LCLS. This note studies the ability of the system to fulfill the fiducialization requirements.

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