Publications

@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}

}

@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}

}