Publications
ResearcherID : C-5956-2008 (TY, h-index: 23) , AAZ-8749-2021 (RK, h-index: 7)
Google Scholar : TY (h-index: 32), RK (h-index: 8)
2002
Jungshik Lim, Tadashi Kawazoe, Takashi Yatsui, Motoichi Ohtsu
Fabrication of a Ferromagnetic-Coated Fiber Probe with a Double-Layer Structure Journal Article
In: IEICE TRANSACTIONS on Electronics, E88-C (12), pp. 1832-1835, 2002, ISSN: 0916-8516.
@article{2002limIEICE,
title = {Fabrication of a Ferromagnetic-Coated Fiber Probe with a Double-Layer Structure},
author = {Jungshik Lim and Tadashi Kawazoe and Takashi Yatsui and Motoichi Ohtsu},
url = {https://search.ieice.org/bin/summary.php?id=e85-c_12_2077&category=C&year=2002&lang=E&abst=},
issn = {0916-8516},
year = {2002},
date = {2002-12-01},
journal = {IEICE TRANSACTIONS on Electronics},
volume = {E88-C},
number = {12},
pages = {1832-1835},
publisher = {IEICE},
abstract = {We fabricated the first Fe-coated fiber probe for magneto-optical applications. In order to improve the optical confinement capability, we used a double-layer structure, with a thin coating of Au. The double-layer structure consisted of 50-nm-thick Fe and 50-nm-thick Au. A probe-to-probe experiment confirmed that the fabricated fiber probe had an effective optical confinement capability for optical near-field measurement.},
keywords = {Ferromagnetic},
pubstate = {published},
tppubtype = {article}
}
We fabricated the first Fe-coated fiber probe for magneto-optical applications. In order to improve the optical confinement capability, we used a double-layer structure, with a thin coating of Au. The double-layer structure consisted of 50-nm-thick Fe and 50-nm-thick Au. A probe-to-probe experiment confirmed that the fabricated fiber probe had an effective optical confinement capability for optical near-field measurement.