Abstract
The printed board dipole trim magnet design for a 20 MeV LIA is presented. The prototype dipole magnet with the sin/cos distributed windings has demonstrated more than 650 Gs-cm integrated dipole field and 1% integrated dipole field homogeneity within 5 cm in radius, which is about 40% of the magnet radius. Numerical modeling of two prototype magnet designs using the 3D magnetic field code SCMAG is presented as well as data from magnetic field measurements of the two magnets. The agreement between the calculations and measurements is accurate to 2-3%. (author). 3 figs., 4 refs.
Liu, Chengjun;
Zhu, Wenjun;
Zhang, Kaizhi;
Zhang, Wenwei;
Yu, Haijun
[1]
- China Academy of Engineering Physics., Chengdu (China). Inst. of Fluid Physics
Citation Formats
Liu, Chengjun, Zhu, Wenjun, Zhang, Kaizhi, Zhang, Wenwei, and Yu, Haijun.
Printed board dipole trim magnet design for 20 MeV LIA.
Czech Republic: N. p.,
1996.
Web.
Liu, Chengjun, Zhu, Wenjun, Zhang, Kaizhi, Zhang, Wenwei, & Yu, Haijun.
Printed board dipole trim magnet design for 20 MeV LIA.
Czech Republic.
Liu, Chengjun, Zhu, Wenjun, Zhang, Kaizhi, Zhang, Wenwei, and Yu, Haijun.
1996.
"Printed board dipole trim magnet design for 20 MeV LIA."
Czech Republic.
@misc{etde_511261,
title = {Printed board dipole trim magnet design for 20 MeV LIA}
author = {Liu, Chengjun, Zhu, Wenjun, Zhang, Kaizhi, Zhang, Wenwei, and Yu, Haijun}
abstractNote = {The printed board dipole trim magnet design for a 20 MeV LIA is presented. The prototype dipole magnet with the sin/cos distributed windings has demonstrated more than 650 Gs-cm integrated dipole field and 1% integrated dipole field homogeneity within 5 cm in radius, which is about 40% of the magnet radius. Numerical modeling of two prototype magnet designs using the 3D magnetic field code SCMAG is presented as well as data from magnetic field measurements of the two magnets. The agreement between the calculations and measurements is accurate to 2-3%. (author). 3 figs., 4 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}
title = {Printed board dipole trim magnet design for 20 MeV LIA}
author = {Liu, Chengjun, Zhu, Wenjun, Zhang, Kaizhi, Zhang, Wenwei, and Yu, Haijun}
abstractNote = {The printed board dipole trim magnet design for a 20 MeV LIA is presented. The prototype dipole magnet with the sin/cos distributed windings has demonstrated more than 650 Gs-cm integrated dipole field and 1% integrated dipole field homogeneity within 5 cm in radius, which is about 40% of the magnet radius. Numerical modeling of two prototype magnet designs using the 3D magnetic field code SCMAG is presented as well as data from magnetic field measurements of the two magnets. The agreement between the calculations and measurements is accurate to 2-3%. (author). 3 figs., 4 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}