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<BLOCKQUOTE><FONT size="6">北　智洋</FONT> Kita Tomohiro</BLOCKQUOTE>
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  <DD>大学院工学研究科・工学部 電気・通信工学専攻<BR>
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  <DD>准教授、工学博士</DD>
 
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<BLOCKQUOTE><B>専門分野</B></BLOCKQUOTE>
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<BLOCKQUOTE>半導体工学、シリコンフォトニクス、非線形光学　<BR>
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<BLOCKQUOTE><FONT color="#0000ff"><B><FONT color="#ff0000">What's new</FONT></B></FONT><BR>
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  <LI><FONT color="#0000ff">CLEO2011にてZnO光導波路における自己位相変調効果と第二次高調波発生の同時観測の結果を発表しました。</FONT><BR>
  <FONT color="#000000">&quot;Third and second-order nonlinear optical effects in ZnO channel waveguide&quot;<BR>
<B> Tomohiro Kita</B>, Edgar Yoshio Morales Teraoka, Yoshitomo Okawachi, Atsushi Tsukazaki, Masashi Kawasaki, Alexander L. Gaeta, and Hirohito Yamada<BR>
 Proceedings of CLEO2011 CMAA-4 (2011)　(oral presentation)</FONT><BR clear="none">
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<UL type="circle">
  <LI><FONT color="#0000ff">単純な構造で実現できるSi/Silica 複合光導波路構造を提案しました。</FONT><BR>
  <FONT color="#000000">&quot;Optical Crossing and Integration Using Hybrid Si-Wire/Silica Waveguides&quot;<BR>
Younosuke Wakayama,<B> Tomohiro Kita</B>, and Hirohito Yamada<BR>
 Japanese Journal of Applied Physics 50, 04DG20 (2011)</FONT><BR clear="none">
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  <LI><FONT color="#0000ff">チャネル型ZnO光導波路における自己位相変調効果を詳細に調べました。</FONT><BR>
  <FONT color="#000000">&quot;Analysis of the Nonlinear Optical Parameter of ZnO Channel Waveguides;<BR>
Edgar Yoshio Morales Teraoka,<B> Tomohiro Kita</B>, Daniel H. Broaddus, Atsushi Tsukazaki, Masashi Kawasaki, Alexander L. Gaeta, and Hirohito Yamada<BR>
 Japanese Journal of Applied Physics 50, 04DG01 (2011)</FONT><BR clear="none">
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<BLOCKQUOTE><B>経歴</B>
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平成10年 早稲田大学 理工学部電気電子情報工学科卒業<BR>
平成12年 北陸先端科学技術大学院大学　材料科学研究科博士前期課程　物性科学専攻　修了<BR>
平成15年 北陸先端科学技術大学院大学　材料科学研究科博士後期課程　物性科学専攻　修了<BR>
平成15年 博士(材料) (北陸先端科学技術大学院大学)<BR>
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平成15年～19年　科学技術振興機構　半導体スピントロニクスプロジェクト博士研究員<BR>
化合物半導体量子ドットを用いたスピントロニクスデバイスの研究に従事<BR><BR>
平成19年～28年　東北大学工学研究科　通信工学専攻　光波物理工学講座助教<BR>
平成28年～　　　　同上　准教授<BR>
シリコン及び酸化物半導体を用いた機能性光導波路デバイスの研究に従事<BR><BR>
 
<BLOCKQUOTE><B>招待講演</B>
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12.	*Tomohiro Kita<BR>
 “Silicon Photonic Wavelength Tunable Lasers for high-capacity optical communication system”(予定)<BR>
Optical Fiber Communication Conference and Exhibition (OFC) 2017. <BR><BR>
11.	*Tomohiro Kita<BR>
 “Heterogeneous silicon photonic wavelength tunable laser diodes”(予定)<BR>
The 6th Annual World Congress of Nano Science and Technology-2016(Nano S&T-2016). <BR><BR>
10.	*北　智洋<BR>
 “シリコンフォトニック波長可変レーザの広波長帯域化”(予定)<BR>
電子情報通信学会2016年ソサイエティ大会. <BR><BR>
9.	*北　智洋<BR>
 “シリコン細線リング共振器を用いた量子ドット波長可変レーザの開発”<BR>
電子情報通信学会第23回シリコンフォトニクス研究会 (2015). <BR><BR>
8.	Naokatsu Yamamoto, Kouichi Akahane, Atsushi Matsumoto, Toshimasa Umezawa, Atsushi Kanno, Tetsuya Kawanishi, *Tomohiro Kita, and Hirohito Yamada<BR>
 “Advanced Photonics ICT Devices and Their System Application Using Quantum-Dot Technology”<BR>
Asia Communications and Photonics Conference 2015. <BR><BR>
7.	*Tomohiro Kita, Rui Tang, Munehiro Soma, and Hirohito Yamada<BR>
 “Silicon Photonic Devices for a Large Capacity Optical Communication system”<BR>
The 4th International Symposium on Photonics and Electronics Convergence (2014). <BR><BR>
6.	O. Sugihara, *T. Kita, D. Inoue, F. S. Tan, A. Hattori, A. Kawasaki, M. Sato, T. Yamashita, M. Mizuno, S. Okada, M. Kagami, M. Tsuchimori, O. Watanabe, H. Yamada, T. Kaino<BR>
 “Recent Progress of Optical Interconnect Devices using Photonic Polymers”<BR>
The 23rd International Conference on Plastic Optical Fibers (2014). <BR><BR>
5.	*北　智洋, 唐　睿, 山田　博仁<BR>
 “狭線幅・高出力シリコンフォトニック波長可変レーザ(依頼講演)”<BR>
電子情報通信学会2014年ソサエティ大会 <BR><BR>
4.	Hirohito Yamada and *Tomohiro Kita<BR>
 “Silicon Photonics for Network Applications”<BR>
4th RIEC-RLE Meeting on Research Collaboration in Photonics (2014). <BR><BR>
3.	*北　智洋, 山田　博仁<BR>
 “デジタルコヒーレント光通信用シリコンフォトニック波長可変レーザ”<BR>
フォトニックデバイス・応用技術研究会2014年5月 <BR><BR>
2.	*北　智洋, 唐　睿, 山田　博仁<BR>
 “シリコンフォトニック波長可変レーザ(依頼講演)”<BR>
電子情報通信学会2014年総合大会 <BR><BR>
1.	*北　智洋<BR>
 “シリコンフォトニクスの進展”<BR>
電子情報通信学会北陸支部講演会2013年10月 <BR><BR>

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<BLOCKQUOTE><B>学術論文</B>
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43.	*Tomohiro Kita, Tang Rui, and Hirohito Yamada<BR>
 “Narrow Spectral Linewidth Silicon Photonic Wavelength Tunable Laser Diode for Digital Coherent Communication System”<BR>
IEEE Journal of Selected Topics in Quantum Electronics 06285 (2016). (Invited Paper) <BR><BR>	
42.     *Tomohiro Kita, Naokatsu Yamamoto, Atsushi Matsumoto, Tetsuya Kawanishi, and Hirohito Yamada<BR>
 “Heterogeneous quantum dot/silicon photonics-based wavelength-tunable laser diode with a 44 nm wavelength-tuning range”<BR>
Japanese Journal of Applied Physics 55, 04EH11 (2016). <BR><BR>
41.	*Tomohiro Kita, Naokatsu Yamamoto, Tetsuya Kawanishi, and Hirohito Yamada<BR>
 “Ultra-compact Wavelength-Tunable Quantum-Dot Laser with Silicon-Photonics Double Ring Filter”<BR>
Applied Physics Express 8, 062701 (2015). <BR><BR>
40.	Rui Tang, *Tomohiro Kita, and Hirohito Yamada<BR>
 “Narrow-Spectral-Linewidth Silicon Photonic Wavelength-Tunable Laser with Highly Asymmetric Mach-Zehnder Interferometer”<BR>
Optics Letters 40, 1504 (2015). <BR><BR>
39.	*Tomohiro Kita, Rui Tang, and Hirohito Yamada<BR>
 “Compact Silicon Photonic Wavelength-tunable Laser Diode with Ultra-wide Wavelength Tuning Range”<BR>
Applied Physics Letters 106, 111104 (2015).<BR><BR>
38.	Naoki Kobayashi, Kenji Sato, Masahiko Namiwaka, Keisuke Yamamoto, Shinya Watanabe, *Tomohiro Kita, Hirohito Yamada, and Hiroyuki Yamazaki<BR>
 “Silicon photonic hybrid ring-filter external cavity wavelength tunable lasers”<BR>
Journal of Lightwave Technology 33, 1241 (2015).<BR><BR>
37.	Munetoshi Soma, *Tomohiro Kita, Yuichiro Tanushi, Munehiro Toyama, Miyoshi Seki, Nobuyuki Yokoyama, Minoru Ohtsuka, and Hirohito Yamada<BR>
 “Optimum waveguide-core size for reducing device property distribution of Si-waire waveguide devices”<BR>
Japanese Journal of Applied Physics 54, 04DG03 (2015).<BR><BR>
36.	*Tomohiro Kita, Keita Nemoto, and Hirohito Yamada<BR>
 “Silicon Photonic Wavelength-Tunable Laser Diode with Asymmetric Mach-Zehnder Interferometer”<BR>
IEEE Journal of Selected Topics in Quantum Electronics 20, 344 (2014).<BR><BR>
35.	*Tomohiro Kita, Keita Nemoto, and Hirohito YamadaBR>
 “Long external cavity Si photonic wavelength tunable laser diode”<BR>
Japanese Journal of Applied Physics, 53, 04EG04 (2014).<BR><BR>
34.	Keita Nemoto, *Tomohiro Kita, and Hirohito Yamada<BR>
 “Narrow-Spectral-Linewidth Wavelength-Tunable Laser Diode with Si Wire Waveguide Ring Resonators”<BR>
Applied Physics Express, 5, 2701 (2012).<BR><BR>
33.	Yuta Taira, *Tomohiro Kita, Edgar Yoshio Morales Teraoka, and Hirohito Yamada<BR>
 “Analysis of Phase Matching Conditions for Generating Second Harmonic in ZnO Channel Waveguides”<BR>
Japanese Journal of Applied Physics 51, 04DG04 (2012).<BR><BR>
32.	*Tomohiro Kita, Edgar Yoshio Morales Teraoka, Yoshitomo Okawachi, Atsushi Tsukazaki, Masashi Kawasaki, Alexander L. Gaeta, and Hirohito Yamada<BR>
 “Third and second-order nonlinear optical effects in ZnO channel waveguide”<BR>
Proceedings of CLEO2011 CMAA-4 (2011)　(oral presentation)<BR><BR>
31.	Younosuke Wakayama , Tomohiro Kita, and Hirohito Yamada<BR>
 “Optical Crossing and Integration Using Hybrid Si-Wire/Silica Waveguides”<BR>
Japanese Journal of Applied Physics 50, 04DG20 (2011)<BR><BR>
30.	Edgar Yoshio Morales Teraoka, Tomohiro Kita, Daniel H. Broaddus, Atsushi Tsukazaki, Masashi Kawasaki, Alexander L. Gaeta, and Hirohito Yamada<BR>
”Analysis of the Nonlinear Optical Parameter of ZnO Channel Waveguides”<BR>
Japanese Journal of Applied Physics 50, 04DG01 (2011)<BR><BR>
29.	Hidenori Iwata, Tomohiro Kita, and Hirohito Yamada<BR>
” Variation of optical properties by the crystalline phase transition of polycrystalline silicon”<BR>
Proceedings of SPIE photonic WSET 7943-50 (2011)<BR><BR>
28.	Ken Suzuki, Tomohiro Kita, and Hirohito Yamada<BR>
”Wavelength Tunable Laser Diodes with Si-Wire Waveguide Ring Resonator Wavelength Filters”<BR>
Proceedings of SPIE photonic WSET 7943-51 (2011)<BR><BR>
27.	Koichi Abe, Edgar Yoshio Molares Teraoka, Tomohiro Kita, and Hirohito Yamada<BR>
” Nonlinear optical waveguides with rutile TiO2”<BR>
Proceedings of SPIE photonic WSET 7940-40 (2011)<BR><BR>
26.	Edgar Yoshio Morales Teraoka, Tomohiro Kita, Atsushi Tsukazaki, Masashi Kawasaki, and Hirohito Yamada<BR>
” Fabrication of ZnO channel waveguides for nonlinear optical applications”<BR>
Proceedings of SPIE photonic WSET 7940-48 (2011)<BR><BR>
25.	*Tomohiro Kita and Hirohito Yamada<BR>
” Experimental and numerical analysis study of 1-D photonic crystal in Si photonic-wire waveguides”<BR>
Proceedings of SPIE photonic WSET 7606-48 (2010)<BR><BR>
24.	Edgar Yoshio Morales Teraoka, D. H. Broaddus, Tomohiro Kita, Atsushi Tsukazaki, Masashi Kawasaki, Alexander L. Gaeta, and Hirohito Yamada<BR>
” Self-phase modulation in visible wavelengths by nonlinear ZnO channel waveguides” <BR>
Applied Physics Letters 97, pp71105-71107 (2010) <BR><BR>
23.	Edgar Yoshio Morales Teraoka, Tomohiro Kita, Atsushi Tsukazaki, Masashi Kawasaki, Yasuo Ohtera, and Hirohito Yamada<BR>
” ZnO channel waveguides for nonlinear optic applications”<BR> 
Japanese Journal of Applied Physics 49, 04DG15 (2010) <BR><BR>
22.	*Tomohiro Kita, Daichi Chiba, Yuzo Ohno, and Hideo Ohno<BR>
“Fabrication of a few-electron In0.56Ga0.44As vertical quantum dot with an Al2O3 gate insulator” <BR>
PHYSICA E 40, pp1930-1932 (2008) <BR><BR>
21.	 Stephan Marcet, Tomohiro Kita, Keita Ohtani, and Hideo Ohno<BR>
“Effect of vertical electric fields on exciton fine structure of GaAs natural quantum dots” <BR>
PHYSICA E 40, pp2069-2071 (2008) <BR><BR>
20.	O. B. Agafonov, Tomohiro Kita, Hideo Ohno, and Rolf J. Haug<BR>
“Fine structure in magnetospectrum of vertical quantum dot” <BR>
PHYSICA E 40, pp1630-1632 (2008) <BR><BR>
19.	*Tomohiro Kita, Daichi Chiba, Yuzo Ohno, and Hideo Ohno <BR>
“A few-electron vertical In0.56Ga0.44As quantum dot with an insulating gate” <BR>
Applied Physics Letters (2007) <BR><BR>
18.	A. Tsukazaki, A. Ohtomo, Tomohiro Kita, Y. Ohno, H. Ohno, and M. Kawasaki <BR>
“Quantum Hall Effect in Polar Oxide Heterostructures” <BR>
SCIENCE 315, pp1388-1391 (2007) <BR><BR>
17.	*Tomohiro Kita, Daichi Chiba, Yuzo Ohno, and Hideo Ohno<BR>
“(In,Ga)As gated-vertical quantum dot with an Al2O3 insulator” <BR>
Applied Physics Letters 90, pp062102-062102 (2007) <BR><BR>
16.	*T omohiro Kita, Makoto Kohda, Yuzo Ohno, Fumihiro Matsukura, and Hideo Ohno<BR>
“Spin injection with three terminal device based on (Ga,Mn)As/n+-GaAs tunnel junction”<BR>
Physica Status Solidi (c) 3, 4164 (2006)<BR><BR>
15.	Makoto Kohda, Tomohiro Kita, Yuzo Ohno, Fumihiro Matsukura, and Hideo Ohno<BR>
“Bias voltage dependence of the electron spin injection studied in a three-teminal device based on a (Ga,Mn)As/n+-GaAs Esaki diode”<BR>
Applied Physics Letters, 89, 012103 (2006).<BR><BR>
14.	Daichi Chiba, Tomohiro Kita, Fumihiro Matsukura, and H. Ohno <BR>
“Pulse width and magnetic field dependence of current-induced magnetization switching in a (Ga,Mn)As magnetic tunnel junction”<BR>
Journal of Applied Physics, 99, 08G514 (2006).<BR><BR>
13.	 *T omohiro Kita, Tomoyasu Kakegawa, Masashi Akabori, and Syoji Yamada<BR>
“Spin-polarized transport in adiabatic quantum point contact with strong Rashba spin?orbit interaction”<BR>
SOLID STATE COMMUNICATIONS 136,479 (2005).<BR><BR>
12.	Daichi Chiba, Yoh Sato, Tomohiro Kita, Fumihiro Matsukura, and Hideo Ohno　<BR>
“Current-driven Magnetization Reversal in a Ferromagnetic Semiconductor (Ga,Mn)As/GaAs/(Ga,Mn)As Tunnel Junction”<BR>
Physical Review Letters, 93, 216602 (2004).<BR><BR>
11.	*T omohiro Kita, Tomoyasu Kakegawa , Masashi Akabori, and Syoji Yamada<BR>
“Spin-polarized transport in Rashba quantum point contacts”<BR>
PHYSICA E 22,464 (2004).<BR><BR>
10.	*T omohiro Kita, Tomoyasu Kakegawa, Masashi Akabori, and Syoji Yamada<BR>
“Observation of e2/h conductance steps in a side-gate point contact on In0.75Ga0.25As/In0.75Al0.25As heterostructure”<BR>
JOURNAL OF SUPERCONDUCTIVITY 16,327 (2003).<BR>
9.	Syoji Yamada, Tomoyuki Kikutani, Shin-ichiro Gozu, Yuki Sato, and Tomohiro Kita<BR>
“Spontaneous spin-splitting observed in resonant tunneling diode with narrow band-gap asymmetric quantum well”<BR>
PHYSICA E 13, 815 (2002).<BR><BR>
8.	Yuki Sato, Shin-ichiro Gozu, Tomohiro Kita, and Syoji Yamada<BR>
“Study for realization of spin-polarized field effect transistor in In0.75Ga0.25As/In0.75Al0.25As heterostructure”<BR>
PHYSICA E 12, 399 (2002).<BR><BR>
7.	Syoji Yamada, Yuki Sato, Tomohiro Kita, and Shin-ichiro Gozu<BR>
“Conductance fluctuations in quantum wires formed at spin-splitting narrow gap heterojunctions”<BR>
Compound Semiconductors 2001, 170, 345 (2002).<BR><BR>
6.	Yuki Sato, Shin-ichiro Gozu, Tomohiro Kita, and Syoji Yamada<BR>
“Ballistic spin transport in four-terminal NiFe/In0.75Ga0.25As　structure”<BR>
J. J. Appl. Phys, 40, L1093 (2001).<BR><BR>
5.	Yuki Sato, Tomohiro Kita, Shin-ichiro Gozu, and Syoji Yamada<BR>
“Large spontaneous spin splitting in gate-controlled two-dimensional electron gases at normal In0.75Ga0.25As/In0.75Al0.25As　heterojunctions”<BR>
J. Appl. Phys., 89, 8017 (2001).<BR><BR>
4.	*T omohiro Kita, Yuki Sato, Shin-ichiro Gozu, and Syoji Yamada<BR>
“Large spontaneous spin-splitting and enhanced effective g-factor in two-dimensional electron gas at In0.75Ga0.25As/In0.75Al0.25As metamorphic heterojunctions”<BR>
PHYSICA B 298, 65 (2001).<BR><BR>
3.	Shin-ichiro Gozu, Tomohiro Kita, Tomoyuki Kikutani, and Syoji Yamada<BR>
“Critical layer thickness study in In0.75Ga0.25As/In0.5Al0.5As pseudmorphic resonant tunneling diode structure on GaAs substrate”<BR>
J. Cryst. Growth, 227, 161 (2001).<BR><BR>
2.	Shin-ichiro Gozu, Tomohiro Kita, Yuki Sato, Syoji Yamada, and Masaaki Tomizawa<BR>
“Characterization of high indium content metamorphic InGaAs/InAlAs modulation-doped heterostructure”<BR>
J. Cryst. Growth, 227, 155 (2001).<BR><BR>
1.	Yuki Sato, Shin-ichiro Gozu, Tomohiro Kita, and Syoji Yamada<BR>
“An investigation of tunable spin-orbit interactions in front-gated In0.75Ga0.25As/In0.75Al0.25As heterojunctions”<BR>
PHYSICA E 10, 77 (2001).<BR>
 
<BLOCKQUOTE><B>研究助成</B>
<HR>
<BR>
<FONT color="#0000ff">2016-2018 </FONT><FONT color="#000000"> 情報通信研究機構　高度通信・放送研究開発委託研究 研究分担(サブリーダ)<BR>          高い環境耐性を有するキャリアコンバータ技術の研究開発<BR>
</FONT><BR>
<FONT color="#0000ff">2015-2018 </FONT><FONT color="#000000"> 科学技術振興機構　研究成果最適展開支援プログラム(シーズ育成タイプ) 研究分担<BR>          狭線幅波長可変レーザの開発<BR>
</FONT><BR>
<FONT color="#0000ff">2016-2018 </FONT><FONT color="#000000"> 科学技術振興機構　戦略的イノベーション創出推進プログラム 研究代表<BR>          ナノハイブリッド電気光学ポリマーを用いた光インターコネクトデバイス技術の提案<BR>
</FONT><BR>
<FONT color="#0000ff">2015-2016 </FONT><FONT color="#000000"> 総務省　若手ICT研究者等育成型研究開発フェーズⅡ(選抜提案) 研究代表<BR>          大容量光通信用シリコンフォトニック波長可変レーザの開発<BR>
</FONT><BR>
<FONT color="#0000ff">2015 </FONT><FONT color="#000000"> 立石科学技術振興財団　平成27年度研究助成(A) 研究代表<BR>          シリコンフォトニック波長可変レーザを用いた医療イメージング用光源の開発<BR>
</FONT><BR>
<FONT color="#0000ff">2014 </FONT><FONT color="#000000"> 総務省　若手ICT研究者等育成型研究開発フェーズⅠ 研究代表<BR>          大容量光通信用シリコンフォトニック波長可変レーザの開発<BR>
</FONT><BR>
<FONT color="#0000ff">2013-2014 </FONT><FONT color="#000000"> 科学技術振興機構　研究成果最適展開支援プログラム(シーズ顕在化タイプ) 研究代表<BR>          シリコンフォトニクスを用いたデジタルコヒーレント光通信用波長可変レーザの開発<BR>
</FONT><BR>
<FONT color="#0000ff">2013-2015 </FONT><FONT color="#000000"> 科学研究費補助金　基盤(C) 研究代表<BR>          次世代コヒーレント光通信用　小型・狭線幅シリコンフォトニクス波長可変レーザモジュールの開発<BR>
</FONT><BR>
<FONT color="#0000ff">2013-2015 </FONT><FONT color="#000000"> 科学技術振興機構　戦略的イノベーション創出推進プログラム 研究分担<BR>          ナノハイブリッド電気光学ポリマーを用いた光インターコネクトデバイス技術の提案<BR>
</FONT><BR>
<FONT color="#0000ff">2012-2013 </FONT><FONT color="#000000"> 科学技術振興機構　研究成果最適展開支援プログラム(探索タイプ) 研究代表<BR>          シリコンフォトニクスを用いたデジタルコヒーレント光通信用波長可変レーザの開発<BR>
</FONT><BR>
<FONT color="#0000ff">2011</FONT><FONT color="#000000"> 前川報恩会学術研究助成 研究代表<BR>          局所レーザー加熱を用いたSi細線光導波路デバイスのトリミング技術の開発<BR>
</FONT><BR>
<FONT color="#0000ff">2011-2013 </FONT><FONT color="#000000"> 科学研究費補助金　基盤(B) 研究分担<BR>          Si 細線/石英系混成光導波路集積回路の研究<BR>
</FONT><BR>
<FONT color="#0000ff">2011-2012 </FONT><FONT color="#000000"> 科学研究費補助金　若手(B) 研究代表<BR>          高非線形光導波路を用いた広帯域光発生の研究<BR>
</FONT><BR>
<FONT color="#0000ff">2009-2010 </FONT><FONT color="#000000"> KDDI財団研究奨励金 研究代表 <BR>省電力ネットワーク実現のためのスロット型Si細線光導波路の機能集積化の研究<BR>
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<FONT color="#0000ff">2009</FONT><FONT color="#000000"> 池谷科学技術振興財団研究助成 研究代表<BR>          Si光導波路の界面化学反応を利用した機能性光学デバイスの研究<BR>
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<FONT color="#0000ff">2008-2009</FONT><FONT color="#000000">科学研究費補助金　若手(B) 研究代表<BR>          フォトニックエレメントを用いた光波制御の研究<BR>
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<B>受賞</B>
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<FONT color="#0000ff">2014</FONT>
石田實記念財団　平成26年度研究奨励賞<BR>
<FONT color="#0000ff">2007</FONT>
第23回　応用物理学会講演奨励賞<BR>
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  <DD><A href="mailto:tkita@ecei.tohoku.ac.jp">tkita(a)ecei.tohoku.ac.jp</A></DD>
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