@article{oai:kyutech.repo.nii.ac.jp:00005024,
 author = {Takezawa, Masaaki and 竹澤, 昌晃 and Maruko, K. and Tani, N. and Morimoto, Y. and Yamasaki, J. and Nishiuchi, T. and Hirosawa, S.},
 issue = {9},
 journal = {Journal of Applied Physics},
 month = {Apr},
 note = {A Kerr microscope that uses ultraviolet (UV) light for high-resolution domain observation was built, and the domain structure and magnetization process of hydrogenation disproportionation desorption recombination (HDDR) powder were examined. The UV Kerr microscope could observe nanometer-sized domain patterns. Applying a dc field of 1.0 kOe to HDDR powder at a desorption recombination (DR) time of 12 min produced abrupt wall motion. The pinning force exerted by the grain boundaries is inadequate for producing high coercivity because the Nd-rich phase layers along these boundaries are absent at a DR time of 12 min. For HDDR powder at a DR time greater than 14 min, changing the magnetic field by up to 1.0 kOe produced no observable wall motion. It follows that the high coercivity of HDDR powder is due to domain wall pinning at the grain boundaries.},
 pages = {09A724.1--09A724.3},
 title = {Magnetic domain observation of hydrogenation disproportionation desorption recombination processed Nd－Fe－B powder with a high-resolution Kerr microscope using ultraviolet light},
 volume = {107},
 year = {2010},
 yomi = {タケザワ, マサアキ}
}