Open MRI Magnet With Iron Rings Correcting the Lorentz Force and Field Quality

Qiuliang Wang Qiuliang Wang,Baozhi Zhao Baozhi Zhao,Lankai Li Lankai Li,Jie Zheng Jie Zheng,Chunyan Cui Chunyan Cui,Yi Li Yi Li,Jianyi Xu Jianyi Xu,Qun He Qun He,Yinming Dai Yinming Dai,Shunzhong Chen Shunzhong Chen,Hui Wang Hui Wang,Junsheng Cheng Junsheng Cheng,Xuchen Zhu Xuchen Zhu,Zhipeng Ni Zhipeng Ni,Luguang Yan Luguang Yan,Zhongkui Feng Zhongkui Feng,Housheng Wang Housheng Wang,Shousen Song Shousen Song

doi:10.1109/tasc.2013.2290587

Qiuliang Wang Qiuliang Wang, Baozhi Zhao Baozhi Zhao + Show 16 more

https://doi.org/10.1109/tasc.2013.2290587

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A magnetic resonance imaging (MRI) superconducting magnet with openness can reduce claustrophobia of a patient. To fabricate an open MRI magnet, a new magnet configuration with iron rings and pole plates balancing the force between the coil and the yoke, and correcting the field homogeneity has been proposed. An MRI magnet with the center field of 0.7 T generated by split-pair coils and yokes is fabricated. The coils are contained in the cryostat with separated vessels connected with two pipes. The coils are separated with a room temperature gap of 480 mm and the diameter spherical volume (DSV) of 300 mm in which the homogeneity is 3 ppm in peak-to-peak. The cryogenic system is cooled by one GM cryo-cooler to realize the zero boiling off liquid helium. In the paper, the detailed design, fabrication, and test will be reported.

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