Development of Type A Quadrupole Magnet for Siam Photon Source II

Inhaled particles Pub Date : 2023-06-09 DOI:10.3390/particles6020039

S. Prawanta, T. Leetha, Pariwat Singthong, Pajeeraphorn Numanoy, A. Kwankasem, V. Sooksrimuang, C. Preecha, S. Klinkiew, P. Sunwong

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Abstract

A prototype of a type A quadrupole magnet has been designed and manufactured for the 3 GeV storage ring of Siam Photon Source II, the second synchrotron light source in Thailand. The required quadrupole gradient is 51 T/m with the magnet effective length being 162 mm. Magnet modeling and magnetic field calculation were performed using Radia and Opera-3D. The bore radius of the magnet is 16 mm. The magnet will be operated at the excitation of 5544 A-turns. A mechanical analysis of the magnet structure was performed in SOLIDWORKS and ANSYS, where the maximum deformation of 0.003 mm was found at the magnet poles, and the first-mode natural frequency was higher than 100 Hz. The magnet yoke is made of AISI 1006 low-carbon steel with a fabrication tolerance of ±0.020 mm. Magnet coils are water-cooled and made of high-purity copper. The temperature rise of the coils was below 3.0 °C at the maximum excitation of 6664 A-turns, which is 20% above the operating point. Magnetic field measurement was carried out using the Hall probe technique. The measured magnetic field and coil temperature of the prototype show good agreement with the calculations.

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Siam光子源用A型四极磁体的研制2

为泰国第二个同步加速器光源Siam光子源II的3gev存储环设计并制造了A型四极磁体的原型。所需的四极梯度为51 T/m，磁体有效长度为162 mm。利用Radia和Opera-3D软件进行磁体建模和磁场计算。磁铁的孔径半径为16mm。磁体将在5544 a匝的励磁下运行。在SOLIDWORKS和ANSYS中对磁体结构进行了力学分析，磁极处的最大变形为0.003 mm，一模固有频率大于100 Hz。磁铁轭架由AISI 1006低碳钢制成，制造公差为±0.020 mm。磁铁线圈是水冷的，由高纯度铜制成。在最大励磁6664 a匝时，线圈温升低于3.0℃，比工作点高20%。磁场测量采用霍尔探针技术。样机的实测磁场和线圈温度与计算结果吻合较好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Inhaled particles

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