A method for monitoring the misalignment of the magnetic axis in solenoids is proposed. This method requires only a few measurements of the magnetic field at fixed positions inside the magnet aperture, and thus overcomes the main drawback of sturdy moving mechanics of other Hall sensor-based methods. Conversely to state-of-the-art axis determination, the proposed method can be applied also during magnet operations, when the axis region and almost the whole remaining magnet aperture are not accessible. Moreover, only a few measurements of the magnetic field at fixed positions inside the magnet aperture are required: thus a slow process such as the mapping of the whole aperture of a magnet by means of moving stages is not necessary. The mathematical formulation of the method is explained, and a case study on a model of a multi–layer solenoid is presented. For this case study, the uncertainty is assessed and the optimal placement of the Hall transducers is derived.

Measuring the magnetic axis alignment during solenoids working / Arpaia, P.; Celano, B.; De Vito, L.; Esposito, A.; Parrella, A.; Vannozzi, A.. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 8:(2018). [10.1038/s41598-018-29667-1]

Measuring the magnetic axis alignment during solenoids working

P. Arpaia
;
A. Esposito;
2018

Abstract

A method for monitoring the misalignment of the magnetic axis in solenoids is proposed. This method requires only a few measurements of the magnetic field at fixed positions inside the magnet aperture, and thus overcomes the main drawback of sturdy moving mechanics of other Hall sensor-based methods. Conversely to state-of-the-art axis determination, the proposed method can be applied also during magnet operations, when the axis region and almost the whole remaining magnet aperture are not accessible. Moreover, only a few measurements of the magnetic field at fixed positions inside the magnet aperture are required: thus a slow process such as the mapping of the whole aperture of a magnet by means of moving stages is not necessary. The mathematical formulation of the method is explained, and a case study on a model of a multi–layer solenoid is presented. For this case study, the uncertainty is assessed and the optimal placement of the Hall transducers is derived.
2018
Measuring the magnetic axis alignment during solenoids working / Arpaia, P.; Celano, B.; De Vito, L.; Esposito, A.; Parrella, A.; Vannozzi, A.. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 8:(2018). [10.1038/s41598-018-29667-1]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/719968
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