Articles
back to Achievements
2011
八井, 崇
近接場光カップラの進展 Technical Report
2011, (応用物理, Vol. 80, No. 9, pp.790-793).
Links | BibTeX | Tags: Nanophotonic device
@techreport{coupler,
title = {近接場光カップラの進展},
author = {崇 八井},
doi = {10.11470/oubutsu.80.9_790},
year = {2011},
date = {2011-09-01},
note = {応用物理, Vol. 80, No. 9, pp.790-793},
keywords = {Nanophotonic device},
pubstate = {published},
tppubtype = {techreport}
}
八井, 崇, 大津, 元一
ZnOナノ構造のナノフォトニックデバイスへの応用 Technical Report
2011, (レーザー研究,第39巻,第3号,pp.184-187).
Abstract | Links | BibTeX | Tags: Nanophotonic device
@techreport{ZnOdevice,
title = {ZnOナノ構造のナノフォトニックデバイスへの応用},
author = {崇 八井 and 元一 大津},
doi = {10.2184/lsj.39.184},
year = {2011},
date = {2011-03-15},
abstract = {This paper reviews recent progress in nanophotonic devices using optical near-fi eld interaction. ZnO nanocrystallites are potentially ideal components for realizing room-temperature operation of nanophotonic devices because of their high exciton-binding energy and great oscillator strength. To
confi rm this promising optical property in ZnO, we report here the near-fi eld time-resolved spectroscopy of ZnO nanorod double-quantum-well structures (DQWs). We successfully demonstrated switching dynamics by a dipole-forbidden optical energy transfer among resonant exciton states. Furthermore, we developed a self-assembly method that aligns nanometer-sized quantum dots (QDs) into a straight line along which photonic signals can be transmitted by optically near-fi eld effects. ZnO QDs were bound electrostatically to DNA to form a one-dimensional QD chain. The photoluminescence intensity under parallel polarization excitation along the QDs chain was much greater than under perpendicular polarization excitation, indicating an effi cient signal transmission along the QD chain.},
note = {レーザー研究,第39巻,第3号,pp.184-187},
keywords = {Nanophotonic device},
pubstate = {published},
tppubtype = {techreport}
}
This paper reviews recent progress in nanophotonic devices using optical near-fi eld interaction. ZnO nanocrystallites are potentially ideal components for realizing room-temperature operation of nanophotonic devices because of their high exciton-binding energy and great oscillator strength. To
confi rm this promising optical property in ZnO, we report here the near-fi eld time-resolved spectroscopy of ZnO nanorod double-quantum-well structures (DQWs). We successfully demonstrated switching dynamics by a dipole-forbidden optical energy transfer among resonant exciton states. Furthermore, we developed a self-assembly method that aligns nanometer-sized quantum dots (QDs) into a straight line along which photonic signals can be transmitted by optically near-fi eld effects. ZnO QDs were bound electrostatically to DNA to form a one-dimensional QD chain. The photoluminescence intensity under parallel polarization excitation along the QDs chain was much greater than under perpendicular polarization excitation, indicating an effi cient signal transmission along the QD chain.
confi rm this promising optical property in ZnO, we report here the near-fi eld time-resolved spectroscopy of ZnO nanorod double-quantum-well structures (DQWs). We successfully demonstrated switching dynamics by a dipole-forbidden optical energy transfer among resonant exciton states. Furthermore, we developed a self-assembly method that aligns nanometer-sized quantum dots (QDs) into a straight line along which photonic signals can be transmitted by optically near-fi eld effects. ZnO QDs were bound electrostatically to DNA to form a one-dimensional QD chain. The photoluminescence intensity under parallel polarization excitation along the QDs chain was much greater than under perpendicular polarization excitation, indicating an effi cient signal transmission along the QD chain.
2010
八井, 崇, 大津, 元一
ナノフォトニックデバイス Technical Report
2010, (O plus E,第32巻,第2号,通巻363号,pp. 136-139).
Links | BibTeX | Tags: Nanophotonic device
@techreport{nanophotonic,
title = {ナノフォトニックデバイス},
author = {崇 八井 and 元一 大津},
url = {https://www.adcom-media.co.jp/bn/2010/01/25/16547/},
year = {2010},
date = {2010-02-01},
note = {O plus E,第32巻,第2号,通巻363号,pp. 136-139},
keywords = {Nanophotonic device},
pubstate = {published},
tppubtype = {techreport}
}
2008
ナノフォトニクス : 物質の衣をまとった光子とそのデバイスへの応用 Technical Report
2008, (Vol. 36,No. 3,pp.123-127).
Abstract | Links | BibTeX | Tags: Nanophotonic device
@techreport{nanophotonics,
title = {ナノフォトニクス : 物質の衣をまとった光子とそのデバイスへの応用},
doi = {10.2184/lsj.36.3_123},
year = {2008},
date = {2008-03-01},
abstract = {In order to break the limit of plasmonics, this paper reviews the principles and practices of nanophotonics. Nanophotonics is the technology utilizing the optical near fields to realize novel device, fabrications and systems. The optical near field is the elementary surface excitations on nanometric particles, or, in the other words, the dressed-photon which is the photon carrying the material energy. Nanophotonic devices including logic gates and an optical nano-fountain are demonstrated as the evidence of realizing the qualitative innovation which has been realized due to optical near field interaction between nanomatric particles.},
note = {Vol. 36,No. 3,pp.123-127},
keywords = {Nanophotonic device},
pubstate = {published},
tppubtype = {techreport}
}
In order to break the limit of plasmonics, this paper reviews the principles and practices of nanophotonics. Nanophotonics is the technology utilizing the optical near fields to realize novel device, fabrications and systems. The optical near field is the elementary surface excitations on nanometric particles, or, in the other words, the dressed-photon which is the photon carrying the material energy. Nanophotonic devices including logic gates and an optical nano-fountain are demonstrated as the evidence of realizing the qualitative innovation which has been realized due to optical near field interaction between nanomatric particles.
2007
八井, 崇, 三宮, 俊, 大津, 元一
近接場相互作用により駆動するナノフォトニックデバイスの進展 Technical Report
2007, (応用物理,Vol. 76,No. 2,pp.160-163).
Links | BibTeX | Tags: Nanophotonic device
@techreport{oubutsu07,
title = {近接場相互作用により駆動するナノフォトニックデバイスの進展},
author = {崇 八井 and 俊 三宮 and 元一 大津},
doi = {doi.org/10.11470/oubutsu.76.2_160},
year = {2007},
date = {2007-02-01},
note = {応用物理,Vol. 76,No. 2,pp.160-163},
keywords = {Nanophotonic device},
pubstate = {published},
tppubtype = {techreport}
}
2006
Yatsui, Takashi, Nomura, Wataru, Ohtsu, Motoichi
Nanodot couplers provide efficient near-field energy transfer Technical Report
2006, (SPIE Newsroom, November issue).
Links | BibTeX | Tags: Nanophotonic device, Nanophotonic fabrication
@techreport{SPIE,
title = {Nanodot couplers provide efficient near-field energy transfer},
author = {Takashi Yatsui and Wataru Nomura and Motoichi Ohtsu},
doi = {10.1117/2.1200610.0427},
year = {2006},
date = {2006-11-02},
note = {SPIE Newsroom, November issue},
keywords = {Nanophotonic device, Nanophotonic fabrication},
pubstate = {published},
tppubtype = {techreport}
}
2005
大津, 崇 八井and 元一
ナノ光デバイスとその製作―近接場光特有の動作と加工技術 Technical Report
2005, (O plus E,Vol. 27,No. 12、pp.1388-1392).
Links | BibTeX | Tags: Nanophotonic device, Nanophotonic fabrication
@techreport{opluse,
title = {ナノ光デバイスとその製作―近接場光特有の動作と加工技術},
author = {崇 八井and 元一 大津},
url = {https://www.adcom-media.co.jp/bn/2005/11/25/17638/},
year = {2005},
date = {2005-12-01},
journal = {O plus E},
volume = {27},
pages = {1388-1392},
note = {O plus E,Vol. 27,No. 12、pp.1388-1392},
keywords = {Nanophotonic device, Nanophotonic fabrication},
pubstate = {published},
tppubtype = {techreport}
}
大津, 元一, 八井, 崇, 川添, 忠
光の回折限界を超えるナノフォトニクスとその材料 Technical Report
2005, (工業材料7月号,Vol. 53,No. 7,pp.18-21).
BibTeX | Tags: Nanophotonic device, Nanophotonic material
@techreport{nanophotonicsb,
title = {光の回折限界を超えるナノフォトニクスとその材料},
author = {元一 大津 and 崇 八井 and 忠 川添},
year = {2005},
date = {2005-07-01},
note = {工業材料7月号,Vol. 53,No. 7,pp.18-21},
keywords = {Nanophotonic device, Nanophotonic material},
pubstate = {published},
tppubtype = {techreport}
}
2004
八井, 崇, 野村, 航, 大津, 元一
プラズモン・ポラリトンナノ光回路 Technical Report
2004, (光学,第33巻,第3号,pp.174-176).
Links | BibTeX | Tags: Nanophotonic device, Plasmon
@techreport{plasmon,
title = {プラズモン・ポラリトンナノ光回路},
author = {崇 八井 and 航 野村 and 元一 大津},
url = {https://annex.jsap.or.jp/photonics/kogaku/public/33-03-gijutsu2.pdf},
year = {2004},
date = {2004-03-01},
note = {光学,第33巻,第3号,pp.174-176},
keywords = {Nanophotonic device, Plasmon},
pubstate = {published},
tppubtype = {techreport}
}