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邱楓

(西湖大學工學院教師)

鎖定
邱楓,博士研究生,現為西湖大學工學院教師。
中文名
邱楓
國    籍
中國
畢業院校
吉林大學
職    業
科研工作者,大學教師
學    歷
博士研究生

目錄

  1. 1 個人簡介
  2. 2 代表論文

邱楓個人簡介

2006 (2008) 年畢業於吉林大學電子科學與工程學院,獲學士(碩士)學位;
2011年於日本高知工科大學獲博士學位,師從Panasonic資深高級工程師Narusawa Tadashi教授。
現任西湖大學工學院特聘研究員、先端光子信息獨立實驗室負責人。

邱楓代表論文

1.“Plate-slot polymer waveguide modulator on silicon-on-insulator”, F. Qiu, A. M. Spring, J. Hong, and S. Yokoyama,Opt. Express26 (9),11213-11221(2018).
2.“Camera sensor platform for high speed video data transmission using a wideband electro-optic polymer modulator”, X. Cheng, F. Qiu, A. M. Spring, M. Sasaki, T. Kashino, M. Ozawa, H. Nawata, T. Kita, O. Sugihara, and S. Yokoyama,Opt. Express27 (3),1877-1883 (2019).
3.“Demonstration of long-term thermally stable silicon-organic hybrid modulators at 85 °C”, C. Kieninger, Y. Kutuvantavida, H. Miura, J. N. Kemal, H. Zwickel, F. Qiu, M. Lauermann, W. Freude, S. Randel, S. Yokoyama, and C. Koos,Opt. Express26 (21),27955-27964 (2018).
4.“Electro‐optic Polymer Ring Resonator Modulator on a Flat Silicon‐on‐Insulator”, F. Qiu, A. M. Spring, J. Hong, H. Miura, T. Kashino, T. Kikuchi, M. Ozawa, H. Nawata, K. Odoi, and S. Yokoyama,Laser Photonics Rev.11, 1700061 (2017).
5.“High thermal stability 40 GHz electro-optic polymer modulators”, H. Miura, F. Qiu, A. M. Spring, T. Kasjino, K. Kikuchi, M. Ozawa, H. Nawata, K. Odoi, and S. Yokoyama,Opt. Express25 (23), 28643-28649 (2017).
6.“Low driving voltage Mach-Zehnder interference modulator constructed from an electro-optic polymer on ultra-thin silicon with a broadband operation”, H. Sato, H. Miura, F. Qiu,A. M. Spring, T. Kasjino, T. Kikuchi, M. Ozawa, H. Nawata, K. Odoi, and S. Yokoyama,Opt. Express25 (2), 768-775 (2017).
7.“A high-speed electro-optic triple-microring resonator modulator”, J. Hong, F. Qiu, X. Cheng, A. M. Spring and S. Yokoyama,Scientific Reports7, 4682 (2017).
8.“Athermal Hybrid Silicon/Polymer Ring Resonator Electro-optic Modulator”, F. Qiu,A. M. Spring, H. Miura, D. Maeda, M. Ozawa, K. Odoi, and S. Yokoyama,ACS Photonics3(5), 780-783 (2016).
9.“Efficiently poled electro-optic polymer modulators”, F. Qiu and S. Yokoyama,Opt. Express24 (17), 19020-19025 (2016).
10.“An electro-optic polymer-cladded TiO2waveguide modulator”, F. Qiu, H. Miuro, A. M. Spring, J. Hong, D. Maeda, M. Ozawa, K. Odoi, and S. Yokoyama,Appl. Phys. Lett.109, 173301 (2016).
11.“Athermal and High-Q Hybrid TiO2–Si3N4Ring Resonator via an Etching-Free Fabrication Technique”, F. Qiu, A. M. Spring, and S. Yokoyama,ACS Photonics2 (3), 405-409 (2015).
12.“A hybrid electro-optic polymer and TiO2double-slot waveguide modulator”, F. Qiu, A. M. Spring, D. Maeda, M. Ozawa, K. Odoi, A. Otomo, I. Aoki, and S. Yokoyama,Scientific Reports5, 8561 (2015).
13.“Ultra-thin silicon/electro-optic polymer hybrid waveguide modulators”, F. Qiu, H. Sato, A. M. Spring, D. Maeda, M. Ozawa, K. Odoi, I. Aoki, A. Otomo, and S. Yokoyama,Appl. Phys. Lett.107, 123302 (2015).
14.“A straightforward electro-optic polymer covered titanium dioxide strip line modulator with a low driving voltage”, F. Qiu, A. M. Spring, D. Maeda, M. Ozawa, K. Odoi, I. Aoki, A. Otomo, and S. Yokoyama,Appl. Phys. Lett.105, 073305 (2014).
15.“TiO2ring-resonator-based EO polymer modulator”, F. Qiu, A. M. Spring, D. Maeda, M. Ozawa, K. Odoi, I. Aoki, A. Otomo, and S. Yokoyama,Opt. Express22 (12), 14101-14107(2014).
16.“Electro-optic properties of a side chain poly(norbornene-dicarboximide) system with an appended phenyl vinylene thiophene chromophore”,A. M.Spring, F. Qiu, J. Hong, A. Bannaron, and S. Yokoyama,Polymer119 (16), 13-27 (2017).
17.“Electro‐optic polymer/titanium dioxide hybrid core ring resonator modulators”, F. Qiu, A. M. Spring, F. Yu, I. Aoki, A. Otomo, and S. Yokoyama,Laser Photonics Rev.7 (6), 84-88 (2013).
18.“Thin TiO2core and electro-optic polymer cladding waveguide modulators”, F. Qiu, A. M. Spring, F. Yu, I. Aoki, A. Otomo, and S. Yokoyama,Appl. Phys. Lett.102, 233504 (2013).
19.“Complementary metal–oxide–semiconductor compatible athermal silicon nitride/titanium dioxide hybrid micro-ring resonators”, F. Qiu, A. M. Spring, F. Yu, and S. Yokoyama,Appl. Phys. Lett.102, 051106 (2013).
20.“Athermal silicon nitride ring resonator by photobleaching of Disperse Red 1-doped poly(methyl methacrylate) polymer”, F. Qiu, F, Yu, A, M. Spring, and S, Yokoyama,Opt. Lett.37 (19), 4086-4088 (2012). [1] 
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