Journal ArticleDOI
Magnet alignment monitoring system with eigenfrequency-based wire sag correction
Chao Zhang,Noriyoshi Azumi,Kenji Fukami,Hiroaki Kimura,Jun Kiuchi,Sakuo Matsui,Yasuhiro Takemura,Shiro Takano,Takahiro Watanabe +8 more
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TLDR
In this article, an alignment monitoring system was developed to monitor the magnet positions in the tunnel where the vibrating-wire technique cannot be executed while the magnets are not energized or when there are vacuum chambers in the magnet center.Abstract:
The precision of magnet alignment in next-generation light sources is critical. To achieve this, the multipole magnets on a common girder of SPring-8-II, an upgrade of SPring-8, are planned to be aligned using the vibrating-wire technique. We developed an alignment monitoring system to monitor the magnet positions in the tunnel where the vibrating-wire technique cannot be executed while the magnets are not energized or when there are vacuum chambers in the magnet center. The alignment monitoring system utilizes a non-contact capacitive sensor embedded in a ceramic ball to measure the wire position relative to the center of the ball and derives the wire sag by measuring a higher mode eigenfrequency. The constitution of this system is illustrated for relevant studies, including the investigation of wire sag against the eigenfrequency, observation of the actual wire sag at a test bench, and validation of the system on the girders for the prototype magnets of SPring-8-II. The system measured the positions of a series of magnets with a precision of ±4 µm (peak to peak) in a 4 m range, in both the horizontal and vertical directions, meeting the requirement of SPring-8-II.read more
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IOP : CLIC pre-alignment — status and remaining challenges
TL;DR: In this article, the authors present a support pre-alignment network that acts as a link between the straight reference line and fiducialisation, which can be of interest especially in the field of large scale metrology.
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Pulsed-wire system for magnetic-field measurements on an in-vacuum undulator at NSRRC
TL;DR: In this article , the authors applied a highly stiff, thin copper zirconium wire to diminish the maximum sag during measurement of a long undulator and demonstrated that the distance between the location of a wire dispersion sensor and a fixed point of the wire is an important issue to separate the main and weak reflection signals in pulsed wire measurement.
References
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Journal ArticleDOI
Vibrating wire field-measuring technique☆
TL;DR: In this article, a technique based on the excitation of the harmonics of a wire vibration by Lorenz forces between current in a wire and the surrounding magnetic field is described.
Journal ArticleDOI
Stretched wire measurement of multipole accelerator magnets
TL;DR: Theoretical aspects of stretched wire field integral measurements are investigated in this paper, where a least square approach is used for the processing of the measured signal; it can be applied to any wire trajectory and it allows numerical correction of the wire position errors.
SPring-8 Upgrade Project
TL;DR: In this article, the authors proposed five key concepts enabling the above scenario are (i) to set the proper beam performance taking account of a role of the fourth generation source in the X-ray source evolution, (ii) to adopt advanced undulator technologies for the total system optimization, (iii) to reduce the power consumption as much as possible by reasonably integrating innovative designs and technologies, (iv) to utilize the SACLA linac as an injector to the upgraded ring for the high performance operation, and (v) to minimize the blackout period for quick restart of
The proposed alignment system for the Final Focus Test Beam at SLAC
R.E. Ruland,G.E. Fischer +1 more
TL;DR: In this article, the authors describe the current state of the art with respect to the geometry, alignment requirements, scenarios, and hardware for meeting the tolerances of the Final Focus Test Beam (FFTB) at SLAC.