Abstract
Rotating-coil magnetometers are among the most common and most accurate transducers for measuring the integral magnetic-field harmonics in accelerator magnets. The measurement uncertainty depends on the mechanical properties of the shafts, bearings, drive systems, and supports. Therefore, rotating coils require a careful analysis of the mechanical phenomena (static and dynamic) affecting the measurements, both in the design and in operation phases. The design phase involves the estimation of worst-case scenarios in terms of mechanical disturbances, while the operation phase reveals the actual mechanical characteristics of the system. In previous publications, we focused on modelling the rotating-coil mechanics for the design of novel devices. In this paper, we characterise a complete system in operation. First, the mechanical model is employed for estimating the forces arising during shaft rotation. Then, the effect of the estimated disturbances is evaluated in a simulated measurement. This measurement is then performed in the laboratory and the two results are compared. In order to characterise the robustness of the system against mechanical vibrations, different revolution speeds are evaluated. This work thus presents a complete procedure for characterising a rotating-coil magnetometer system.
Highlights
Rotating-coil systems are a special type of induction-coil magnetometers, based on Faraday's law of induction
Precise measurements of magnetic fields require a careful evaluation of the mechanical properties of the rotating coils, subject to static and dynamic forces [3]
This paper proposes a further refinement of the model, applied to the metrological characterisation of the designed rotating-coil system
Summary
Rotating-coil systems are a special type of induction-coil magnetometers, based on Faraday's law of induction They are used to measure integral field harmonics in the magnet bore. Precise measurements of magnetic fields require a careful evaluation of the mechanical properties of the rotating coils, subject to static and dynamic forces [3]. This implies the need for the evaluation of vibrations [4]. An analytical model for the mechanical description of rotating-coils was proposed in [7]. Effect of static coil deformations, coil-axis to magnet alignment tolerances, and vibration modes on the measured field harmonics. The conclusion of this study is a complete magneto-mechanical description of a rotating-coil system in operation
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