Publications
ResearcherID : C-5956-2008 (TY, h-index: 24) , AAZ-8749-2021 (RK, h-index: 11)
Google Scholar : TY (h-index: 34), RK (h-index: 11)
2005
Jungshik Lim, Takashi Yatsui, Motoichi Ohtsu
Observation of Size-Dependent Resonance of Near-Field Coupling between a Deposited Zn Dot and the Probe Apex during Near-Field Optical Chemical Vapor Deposition Journal Article
In: IEICE TRANSACTIONS on Electronics, vol. E88-C, no. 9, pp. 1832-1835, 2005.
@article{2005limIEICE,
title = {Observation of Size-Dependent Resonance of Near-Field Coupling between a Deposited Zn Dot and the Probe Apex during Near-Field Optical Chemical Vapor Deposition},
author = {Jungshik Lim and Takashi Yatsui and Motoichi Ohtsu},
doi = {10.1093/ietele/e88-c.9.1832},
year = {2005},
date = {2005-09-01},
journal = {IEICE TRANSACTIONS on Electronics},
volume = {E88-C},
number = {9},
pages = {1832-1835},
publisher = {IEICE},
abstract = {We investigated the initial stage of Zn dot growth using near-field optical chemical vapor deposition. The dependence of the rate of Zn dot deposition on dot size revealed that the deposition rate was maximal when the dot grew to a size equivalent to the probe apex diameter. Such observed size-dependent resonance was in good agreement with theoretical results for dipole-dipole coupling with a Forster field between the deposited Zn dot and the probe apex.},
keywords = {Nanophotonic fabrication, Size-dependent resonance},
pubstate = {published},
tppubtype = {article}
}
We investigated the initial stage of Zn dot growth using near-field optical chemical vapor deposition. The dependence of the rate of Zn dot deposition on dot size revealed that the deposition rate was maximal when the dot grew to a size equivalent to the probe apex diameter. Such observed size-dependent resonance was in good agreement with theoretical results for dipole-dipole coupling with a Forster field between the deposited Zn dot and the probe apex.
2003
Takashi Yatsui, Akira Takubo, Jungshik Lim, Wataru Nomura, Motonobu Kourogi, Motoichi Ohtsu
Regulating the size and position of deposited Zn nanoparticles by optical near-field desorption using size-dependent resonance Journal Article
In: Applied Physics Letters, vol. 83, no. 9, pp. 1716-1718, 2003.
@article{doi:10.1063/1.1606883,
title = {Regulating the size and position of deposited Zn nanoparticles by optical near-field desorption using size-dependent resonance},
author = {Takashi Yatsui and Akira Takubo and Jungshik Lim and Wataru Nomura and Motonobu Kourogi and Motoichi Ohtsu},
doi = {10.1063/1.1606883},
year = {2003},
date = {2003-09-01},
journal = {Applied Physics Letters},
volume = {83},
number = {9},
pages = {1716-1718},
abstract = {We report that optical near-field desorption can dramatically regulate the growth of Zn nanoparticles during optical chemical vapor deposition. The trade off between the deposition due to 3.81 eV optical near-field light and desorption due to 2.54 eV optical near-field light allowed the fabrication of a single 15 nm Zn dot, while regulating its size and position.},
keywords = {First, Self-assembly, Size-dependent resonance},
pubstate = {published},
tppubtype = {article}
}
We report that optical near-field desorption can dramatically regulate the growth of Zn nanoparticles during optical chemical vapor deposition. The trade off between the deposition due to 3.81 eV optical near-field light and desorption due to 2.54 eV optical near-field light allowed the fabrication of a single 15 nm Zn dot, while regulating its size and position.