Title :
Development of Longitudinal-Gradient Magnet for Time Focusing of Ultra-Cold Neutron With Anisotropic Inter-Pole
Author :
Arimoto, Yasushi ; Iwashita, Y. ; Yoshioka, T. ; Kitaguchi, M. ; Imajo, S. ; Shimizu, H.M. ; Asahi, K. ; Ino, T. ; Kamiya, Yushi ; Mishima, Kiyoshi ; Muto, S. ; Sakai, K. ; Shima, T. ; Taketani, K. ; Yamashita, S. ; Yoshimi, A.
Author_Institution :
High Energy Accel. Res. Organ., Inst. of Mater. Struct. Sci., Tsukuba, Japan
fDate :
6/1/2012 12:00:00 AM
Abstract :
Ultra-cold neutron (UCN) is attractive for a search of the neutron electric dipole moment (nEDM). It is crucial to store UCNs with high density in a bottle for nEDM measurement apparatus. To increase the density, time focusing technique can be useful, where slow neutrons are accelerated and fast neutrons are decelerated by using magnetic potential. This device is called “rebuncher.” The rebuncher consists of a gradient magnet, RF coil, and neutron guide. The magnet generates a field gradient of 3.5 T/m (from 1 T to 0.2 T within 24 cm) in the longitudinal direction. By using anisotropic inter-poles, the magnet is compact and keeps the gradient uniform. The fabricated magnet showed good performance as designed.
Keywords :
magnetic anisotropy; neutron electric moment; superconducting magnets; ultracold neutrons; RF coil; UCN; field gradient; longitudinal-gradient magnet; magnetic potential; nEDM measurement apparatus; neutron electric dipole moment; neutron guide; rebuncher device; ultra-cold neutron time focusing technique; Coils; Educational institutions; Magnetic moments; Neutrons; Perpendicular magnetic anisotropy; Saturation magnetization; Gradient magnet; rebuncher; time focusing; ultra-cold neutron;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2012.2183569
