Theoretical Study of the Spatial Resolution Characteristics of Magnetic Focusing Framing Tubes

Three magnetic focusing framing tubes are designed based on short magnetic lenses, long magnetic lenses, and hybrid lenses consisting of short and long magnetic lenses, and the spatial resolution characteristics of these framing tubes are theoretically studied. The excitation current of the short ma...

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Bibliographic Details
Published in:IEEE transactions on plasma science 2022-11, Vol.50 (11), p.1-7
Main Authors: Luo, Qiuyan, Lin, Kaixuan, Chen, Jiajie, Wang, Jiaheng, Huang, Junkun, Wang, Dong, Liu, Jinyuan, Cai, Houzhi
Format: Article
Language:English
Subjects:
Alliances
Excitation
Framing
Framing tubes
magnetic lens
Magnetic lenses
Microscopes
pulse dilation
Spatial resolution
Tubes
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Summary:Three magnetic focusing framing tubes are designed based on short magnetic lenses, long magnetic lenses, and hybrid lenses consisting of short and long magnetic lenses, and the spatial resolution characteristics of these framing tubes are theoretically studied. The excitation current of the short magnetic lenses is 0.15 A, the imaging magnification ratio is 1:1, and the spatial resolution is better than 50 \mu m. The spatial resolution difference is 23.08% within the 30-mm off-axis. The spatial resolution of the long magnetic lens framing tube is better than 20 \mu m, and the spatial resolution difference is 10.71%. However, the long magnetic lenses require a large excitation current of 26.25 A. For the hybrid magnetic lenses, the excitation current of 0.15 A is used to achieve a spatial resolution of better than 20 \mu m and a spatial resolution difference of 8.11%. The simulation results show that the hybrid magnetic lenses are the best imaging method among these three lenses. A high spatial resolution and spatial resolution uniformity can be simultaneously obtained by using a small excitation current in the hybrid magnetic lens framing tube.
ISSN:0093-3813
1939-9375
DOI:10.1109/TPS.2022.3211666