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课题组发表文章列表 |
2024年
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[1] Bo Xiong, Yihao Xu, Wenwen Li, Wei Ma*, Tao Chu* and Yongmin Liu*. "Deep Learning Design for
Multiwavelength Infrared Image Sensors Based on Dielectric Freeform Metasurface"Advanced Optical Materials. 2302200 (2024)
[2] Jing Huang, Nuo Chen, Kaizhong Chen, AND Tao Chu∗ "Low-loss grating coupler with subwavelength structure on thin-film lithium niobate substrate"Optics Letters. 49.222-225(2024)
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2023年
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[1] Bo Xiong, Yu Liu, Yihao Xu, lin Deng, Chaowei Chen, Jianan Wang, Ruwen Peng*,Yun Lai, Yongmin Liu*, and Mu Wang*. "Breaking the limitation of polarization multiplexing in optical metasurfaces with engineered noise"Science. 379(6629), 294-299 (2023).
[1] Ying Huang, Hengsong Yue, Wei Ma, Yiyuan Zhang, Yao Xiao, Weiping Wang, Yong Tang,Xiaoyan Hu, He Tang, and Tao Chu.* "Easily Scalable Photonic Tensor Core Based on TunableUnits with Single Internal Phase Shifters"Laser & Photonics Rev. 2300001 (2023).
[2] Nuo Chen, Kangping Lou, Yalong Yu, Xuanjian He, and Tao Chu.* "High‐Efficiency Electro‐Optic Modulator on Thin‐Film Lithium Niobate with High‐Permittivity Cladding"Laser & Photonics Rev. 2200927 (2023).
[3] Ma, Wei, Hou, Maojing, Luo, Ruiqi, Xiong, Bo, Liu, Nan, Liu, Guandong and Chu, Tao. "Topologically-optimized on-chip metamaterials for ultra-short-range light focusing and mode-size conversion" Nanophotonics (2023)
[4] Yue, Hengsong and Chu, Tao. "Robust reconfigurable radiofrequency photonic filters based on a single silicon in phase/quadrature modulator" Nanophotonics vol.12,no.22 (2023)
[5] Niu, Yunfei, Niu, Yunlong, Hu, Xiaopeng, Hu, Yong, Du, Qingyang, Yu, Shaoliang and Chu, Tao. "On-chip wavefront shaping in spacing-varied waveguide arrays"Nanophotonics vol. 12, no. 19 (2023)
[6] Chenguang Li, Bo Xiong and Tao Chu, "Polarization-independent wavelength demultiplexer based on a single etched diffraction grating device", Communications Engineering. 2 , 4 (2023).
[7] Yating Wu,Hongpeng Shang, Xiaorui Zheng and Tao Chu, "Post-processing Trimming of Silicon Photonic Devices UsingFemtosecond Laser", Nanomaterials. 13, 1031 (2023).
[8] Jiashun Qian and Tao Chu, "Monolithic Miniature Glass Spectrometer," Appl. Spectrosc. 77, 1153-1162 (2023)
[9] Nuo Chen,Yalong Yu, Kangping Lou,Qingjiao Mi and ChuTao. "High-efficiency thin-film lithium niobate modulator
with highly confined optical modes"Optics Letters.48.1602-1605(2023)
[10] Hengsong Yue, Haozhe Sun, AND Tao Chu∗ "High-speed silicon-integrated photonic radio
frequency switch based on optical switching"Optics Letters.48.2877-2880(2023)
[11] Hengsong Yue, Kaizhong Chen, AND Tao Chu∗ "Ultrahigh-linearity dual-drive scheme using single silicon modulator"Optics Letters.48.2995-2998(2023)
[12] Ying Huang, Hengsong Yue, Wei Ma, Yiyuan Zhang, Yao Xiao, Yong Tang, He
Tang, AND Tao Chu∗ "Parallel photonic acceleration processor for
matrix–matrix multiplication"Optics Letters.48.3231-3234(2023)
[13] Xiaoyan Liu,Lin Han, Xiaoke Ruan AND Tao Chu∗ "Low-loss 3-dimensional waveguide crossing with a
parabolic taper interlayer coupler based on a
SiN-SiN-Si three-layer platform"Optics Letters.48.3487-3490(2023)
[14] Chenguang Li, Xiaoyan Liu, Bo Xiong, AND Tao Chu∗ "Polarization-insensitive EDG demultiplexer
combined with a polarization beam splitter"Optics Letters.48.4360-4363(2023)
[15] Xiangyu Luo , Weijie Tang, Tao Chu∗ "Low-loss grating coupler with a gradient index-matching
subwavelength structure"Optics and Laser Technology.2023.109860
[1] 基于可调谐滤波器的硅基片上光子神经网络及其调制方法,202010620808.5,2023-03-14,黄莹,储涛,胡小燕,王伟平 (已授权)
[2] 一种基于交叉色散原理的中阶梯光栅光谱仪及其制备方法 2023102641381,2023-03-10,钱佳顺,储涛 (已受理)
[3]一种偏振分集式解复用器,202111070708.0,2023-03-17,李晨光,储涛(实质审查)
[4]一种偏振不敏感的波导器件设计方法,202211582794.8,2023-03-24,储涛,武雅婷(实质审查)
[5]一种极化反转的铌酸锂差分调制器及芯片,202310295409.X,2023-03-24,陈诺,储涛(已受理)
[6]一种双峰锗层锗硅光电探测2023109917087,2023-08-08,周振,储涛(已受理)
2022
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[1] Wei Ma, Yihao Xu, Bo Xiong, Lin Deng, Ru-Wen Peng*, Mu Wang*, and Yongmin Liu*, “Pushing the limits of functionality-multiplexing capability in metasurface design based on statistical machine learning”, Advanced Materials. 34, 2110022 (2022).
[1] Lin Han, Xiaoke Ruan, Weijie Tang, and Tao Chu*, “Ultralow-loss waveguide crossing for photonic integrated circuits by using inverted”, Optics Express. 30, 6738-6745 (2022).
[2]Xiangyu Luo, Guangcan Mi, Yanbo Li, and Tao Chu*, “High-efficiency grating coupler based on fast directional optimization and robust layout strategy in 130 nm CMOS process”, Optics Letters. 2022, 47(7): 1622-1625.(2022)
[3]Ying Huang, Weiping Wang, Lei Qiao, Xiaoyan Hu, Tao Chu*. “Programmable low-threshold optical nonlinear activation functions for photonic neural networks”,Optics Letters. 47, 1810-1813 (2022).
[4]Bo Xiong , Wei Ma, WeiPing Wang, Xiaoyan Hu, Tao Chu*. “Compact vertical grating coupler with an
achromatic in-plane metalens on a 220-nm silicon-on-insulator platform”,Optics Express. 47, 1810-1813 (2022).
[5]Wenwen Li, Pu Chen, Bo Xiong, Guandong Liu, Shuliang Dou, Yaohui Zhan, Zhiyuan Zhu, Tao Chu, Yao Li,and Wei Ma*. “Deep learning modeling strategy for material science: from natural materials to metamaterials”,J. Phys. Mater. 2022.5 014003
[6]X. Ruan, H. Li and T. Chu*. “Inverse-Designed Ultra-Compact Polarization Splitter–Rotator in Standard Silicon Photonic Platforms With Large Fabrication Tolerance", Journal of Lightwave Technology, vol. 40, no. 21, pp. 7142-7149, 1 Nov.1, 2022, doi: 10.1109/JLT.2022.3199427
[7]Zhen Wang , Jin Zhang , Lei Zhang , Xiaoke Ruan , Weijie Tang and Tao Chu*. “CMOS-Compatible Ultralow-Loss Three-Step Silicon Edge Coupler with Substrate Substitution in the Whole Communication Band", Micromachines 2023, 14, 66
[1] 基于传感环调谐的微型谐振式光学陀螺信号检测装置及方法,202010435388.3,2022-01-18,林孟欣(本科生),储涛(已授权)
[2] 一种基于超材料波导的阵列波导光栅,CN113985524B,2022-4-1,刘楠,马蔚,骆瑞琦,刘冠东,储涛(已授权
[3] 基于可调谐滤波器的硅基片上光子神经网络及其调制方法,202010620808.5,2022-01-10,黄莹,储涛 (实质审查)
[4]工艺误差的补偿方法及装置、电子设备和存储介质 ,202210619009.5,2022-05-30,武雅婷,储涛,郑小睿,尚鸿鹏(实质审查)
[5]硅基调制器产生高边带抑制比单边带信号的方法和系统 ,202210770058.9 ,2022-07-1,岳恒松,陈楷中,黄莹,储涛,(已受理)
[6] 一种偏振无关的电光开关,202210792830.7 ,2022-07-05,陈诺,储涛(已受理)
[7] 一种高调制效率的复合包层电光调制器 ,202210792834.5 ,2022-07-05,陈诺,刘晓妍,储涛(已受理)
[8] 一种基于光开关的射频开关 ,202210843511.4 ,2022-07-18,岳恒松,孙浩哲,黄莹,储涛,江晓清(已受理)
[9] 一种差分平行微环调制系统及其调制方法 ,202210842322.5 ,2022-07-18,岳恒松,孙浩哲,黄莹,储涛,江晓清(已受理)
[10] 一种超大消光比的硅基电光开关单元设计方法 202210871418.4,2022-11-28,武雅婷,储涛(实质审查)
[11] 一种偏振不敏感的波导器件设计方法 202211582794.8 ,2022-12-09,储涛,武雅婷(已受理)
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2021
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[1] Wei Ma, Zhaocheng Liu, Zhaxylyk A. Kudyshev, Alexandra Boltasseva, Wenshan Cai, and Yongmin Liu, “Deep learning for the design of photonic structures” Nature Photonics, 15, 77-90 (2021)
[2] Bing Bai, Jianyao Huang, Guan-Ru Qiao, You-Qi Nie, Weijie Tang, Tao Chu, Jun Zhang, and Jian-Wei Pan, “18.8 Gbps real-time quantum random number generator with a photonic integrated chip” Applied Physics Letters, 118, 264001 (2021)
[1] 双平行马赫曾德尔调制器偏置电压自动控制系统及方法,CN111130645B,2021-05-07,马佳超,储涛(已授权)
[2] 一种基于微环谐振器的器件的插入损耗的测量方法,CN202110520191.4,2021-5-13,唐伟杰,林思蕙,阮小可,储涛(实质审查)
[3] 一种高效宽带光栅耦合器,CN202110543354.0,2021-05-19,雒翔宇,储涛 (实质审查)
[4]一种基于片上偏振控制器的偏振态自动控制算法,CN202111012239.7,2021-08-31,阮小可,储涛(实质审查)
[5] 一种偏振分集式解复用器,202111070708.0,2021-09-14,李晨光,储涛,(已受理)
[6] 一种基于截距法和微环谐振腔的光器件损耗测量方法,CN202110472474.6,2021-04-29,阮小可,唐伟杰,储涛(已受理)
[7] 一种集成光交换芯片中开关单元的校准方法,202110431434.7,2021-04-21,唐伟杰、储涛(已受理)
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2020
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[1]一种采用铌酸锂材料制成的波长高速调谐的激光器,CN110729630B,2020-12-11,储涛,刘晨(已授权)
[2]一种基于相控阵控制的激光推进方法,CN109707585B,2020-07-07,储涛,林天华(已授权)
[3] 一种反射式倒装芯片键合机及芯片键合方法,CN201910963693.7,2020-02-04,唐伟杰,郑翰,储涛 (实质审查)
[4]集成光学相控阵及其控制方法,CN202010705016.8,2020-07-22,白雅文,林天华,储涛(实质审查)
[5]集成光学相控阵及其控制方法,PCT/CN2020/125444,2020-10-30,白雅文,林天华,储涛(PCT已公开)
[6]偏振无关的光开关,CN202010575864.1,2020-06-23,曹伟杰,储涛(实质审查)
[7]偏振无关的光开关,PCT/CN2020/128192,2020-11-11,曹伟杰,储涛( PCT已公开)
[8]硅基电光调制器掺杂结构,20210573470.2,2020-06-23,唐伟杰,储涛(实质审查)
[9]基于可调谐滤波器的硅基片上光子神经网络及其调制方法,202010620808.5,2020-07-02,黄莹,储涛,胡小燕,王伟平(实质审查)
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2019
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[1] Tianhua Lin, Qin Han, and Tao Chu*, “Optical via for silicon photonic 3D-integrations”, Optics Communications, 452, pp200-202, (2019).
[1] 基于正弦空间调制的阵列波导,CN107144918B,2019-08-09,郭德汾,储涛(已授权)
[2] 一种反向PN型掺杂结构及制备方法,CN106547122B,2019-03-22,刘亚东,储涛,张华(已授权)
[3] 波导三维模斑转换器,CN105158847B,2019-01-29,叶彤,储涛,付云飞,李锟,王莹,付志明(已授权)
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2018
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[1] Defen Guo, and Tao Chu*, “Broadband and low-crosstalk polarization splitter-rotator with optimized tapers ”, OSA Continuum. 1(3), 841-850(2018).
[2] Defen Guo, and Tao Chu*, “Compact broadband silicon 3 dB coupler based on shortcuts to adiabaticity ”, Opt. Lett. 43, 4795-4798 (2018).
[3] Tao Chu*, Lei Qiao, Weijie Tang, Defen Guo, and Weike Wu, “Fast, High-radix Silicon Photonic Switches ” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018),paper Th1J.4.
[1] 一种硅基可调偏振旋转器件,CN105204113B,2018-05-15,郭德汾,储涛,候康,张华(已授权)
[2] 微波光子相移装置及方法,CN106487451B,2018-10-26,余胜,储涛(已授权)
[3] 波长快速调谐的单片集成外腔振荡激光器,CN105207057B,2018-01-23,叶彤,储涛,付云飞,唐伟杰(已授权) |
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2017
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[1] Sheng Yu, Yadong Liu, and Tao Chu*, “Highly linear silicon Mach-Zehnder modulators with optimized phase-shifter”,in the 2017 International Topical Meeting on Microwave Photonics (MWP2017),Beijing/China, 2017, paper: Mo2.4.
[2]Yadong Liu, and Tao Chu*,“High-speed Packaging for silicon modulator”, in The 7th International Multidisciplinary Conference on Optofluidics (IMCO2017),Singapore, 2017
[3] Defen Guo and Tao Chu*,“Polarization splitter-rotators with optimized taper structures”(invited),in The 7th International Multidisciplinary Conference on Optofluidics (IMCO2017),Singapore, 2017.
[4] Defen Guo, Yejin Zhang, and Tao Chu* ,“Mode multiplexers with tapers based on shortcuts to adiabaticity”, in 2017 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR 2017),Singapore, 2017.
[5] Tao Chu*,“Active/Passive Photonic Components and Circuits on Silicon” (invited),in 14th International Conference on Group IV Photonics (IEEE-GFPIV 2017),Berlin/Germany, 2017, paper: WE.
[6] Tao Chu*,"Silicon Photonic Devices for HPC and DC Applications” (invited),“in International Symposium on Photonics and Optical Communications (ISPOC 2017),Sendai/Japan.
[7] Tao Chu*,“Silicon Photonic Devices”(invited), in JSAP-OSA Joint Symposia 2017,Fukuoka/Japan, 2017,paper: E 6p-A410-6.
[8] Tao Chu*, “Large scale Silicon Photonic Switches”(invited),in Transmission and Switching Techniques for Data Centers workshop of the Asia Communications and Photonics Conference 2017 (ACP2017),Guangzhou/China, 2017.
[9] Tao Chu*,“Electro-photonic Integration Technologies”(invited), in Industry Forum: Advances and Trends of Photonics Integration of the Asia Communications and Photonics Conference 2017 (ACP2017),Guangzhou/China, 2017.
[10] D. Guo, T. Chu*, “Silicon mode (de)multiplexers with parameters optimized using shortcuts to adiabaticity”, Optics Express 25(8), 9160-9170(2017).
[11] S. Yu, T. Chu*, “Electrical nonlinearity in silicon modulators based on reversed PN junctions”, Photonics Research 5(2), 124-128(2017).
[12] L. Qiao, W. Tang, T. Chu*, “32 × 32 silicon electro-optic switch with built-in monitors and balanced-status units”, Scientific Reports 7, 42306(2017).
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2016
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[1] L. Qiao, W. Tang, T. Chu*, “Large-scale silicon optical switches for optical interconnection”, in the Nanophotonics and Micro/Nano Optics III, (SPIE/COS, Beijing, 2016), paper: 1002705.
[2]W. Wu, T. Lin, T. Chu*, and H. Zhang, “CMOS-Compatible High Efficiency Polarization Splitting Grating Coupler near 1310nm”, (online) in the Asia Communications and Photonics Conference (OSA, Wuhan, 2016), paper: AS2F.4.
[3]Y. Fu, K. Li, W. Wu, W. Tang, T. Chu, Y. Wang, and Z. Fu, “Low-Cost, Compact Optical Time-Domain Reflectometer Based on Silicon Oxynitride Waveguides”, (online) in the Asia Communications and Photonics Conference (OSA, Wuhan, 2016), paper: AF2A.71.
[4]T. Ye, T. Chu*, “Low-Loss and Low-Crosstalk Si Etched Diffraction Gratings with Multi-Point Iterative Optimization”, (oral) in the 13th International Conference on Group IV Photonics (GFP, Shanghai, 2016), paper: ThD5.
[5]L. Qiao, W. Tang, T. Chu*, “Ultra-Large-Scale Silicon Optical Switches”, (oral) in the 13th International Conference on Group IV Photonics (GFP, Shanghai, 2016), paper: WB1.
[6]S. Yu, T. Chu*, ”Study of Electrical Nonlinearity in Analog Silicon Modulator” in the Conference on Lasers and Electro-Optics: Science and Innovations. (CLEO, CA/USA, 2016) JW2A. 119.
[7]L. Qiao, W. Tang,.T. Chu*, “16x16 Non-blocking Silicon Electro-optic Switch Based on Mach-Zehnder Interferometers”, in the Optical Fiber Communication Conference and Exposition/National Fiber Optic Engineers Conference, (OFC/NFOEC, CA/USA, 2016), paper: Th1C.2
[1]微波光子相移装置和方法 ,201610998508.4,2016-10-15,余胜,储涛
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2015
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[1]T. Chu*, “Silicon photonics”, (invited) in the 7th International Conference on Information Optics and Photonics, (CIOP, Nanjing, 2015), paper:20150712-20150715
[2]T. Chu*, “Silicon photonic devices for high speed photonic interconnections”,(invited) in Applied Optics and Photonics China, (AOPC, Beijing, 2015), paper: 20150505-20150507
[3]T. Chu*, “Silicon Photonic Interconnects for CPUs of High Performance Computer”, (invited) in the 4th Photonics Global Conference (PGC, Singapore, 2015), paper:20150628-20150703
[4]T. Chu*, L. Qiao, W. Tang. “High-speed 8× 8 electro-optic switch matrix based on silicon PIN structure waveguides”, in the 12th International Conference on Group IV Photonics (GFP, Vancouver, 2015), paper: 123-124
[5]储涛* “HPC内高速光互连网络与硅基光电子集成器件”, 2015年全国高性能计算学术年会,(HPC China), paper:20151110-20151112
[6]L. Qiao, W. Tang, and T. Chu*, “Non-blocking 8×8 Silicon Electro-optic Switch,” (oral) in 2015 Conference on Lasers and Electro-Optics Pacific Rim, (CLEO-PR, Busan/South Korea, 2015), paper :25J1_5.
[7]K. Hou, T. Chu*, “Ultra-compact and low-loss polarization rotator based on plasmonic waveguide,” (oral) in The 14th International Conference Optical Communications and Networks (ICOCN, Nanjing, 2015), paper: 1-3.
[1]一种阵列波导光栅光谱平坦化的方法,201510666225.5,2015-10-15,叶彤,储涛,付云飞,张华
[2]一种无阻塞波长选择型光波导开关,201510665016.9,2015-10-15,叶彤,储涛,乔雷
[3]波导三维模斑转换器,201510665008.4,2015-10-15,叶彤,储涛,付云飞,李锟,王莹,付志明
[4]波长快速调谐的单片集成外腔振荡激光器,201510716757.5,2015-10-29,叶彤,储涛,付云飞,唐伟杰
[5]一种硅基可调偏振旋转器件,201510716751.8,2015-10-29,郭德汾,储涛,候康,张华
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2014
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[1] Tong Ye, Yunfei Fu, Lei Qiao, and Tao Chu*, “Low-crosstalk Si arrayed waveguide grating with parabolic tapers,” Optics Express 22(26), 31899-31906 (2014).
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[2] Tong Ye, Yunfei Fu, and Tao Chu*, “Crosstalk reduction in Si arrayed waveguide grating with parabolic tapers,” (oral) in the 4th International Symposium on Photonics and Electronics Convergence (ISPEC, Tokyo/Japan, 2014), paper E-4.
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[3] Tao Chu*, “Silicon photonic devices for optical interconnections” (invited) in Asia Communications and Photonics Conference (ACP, Shanghai/China, 2014), paper AF3B.1.
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[4] Tao Chu*, “High-speed silicon modulators and silicon photonics researches in China” (invited) in the 61th Spring Meeting of the Japan Society of Applied Physics (JSAP, Tokyo/Japan, 2014), paper 19a-F8-7.
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[5] Yunfei Fu, Tong Ye, Weijie Tang, and Tao Chu*, “Efficient adiabatic silicon-on-insulator waveguide taper,” Photonics Research 2(3), A41-A44 (2014).
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2013
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Tao Chu*, Xi Xiao, Hao Xu, Xianyao Li, Zhiyong Li, Yude Yu, “High-speed silicon modulators,” (invited) in the 39st European Conference on Optical Communication (ECOC, London/UK, 2013), pp. 22-26.
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2013年9月1日课题组成立前发表的文章
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Journal Publications:
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2013年
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[1] X. Li, X. Xiao, H. Xu, Z. Li, T. Chu, J. Yu, and Y. Yu, “Mach-Zehnder-based five-port silicon router for optical interconnects,” Optics Letters 38(10), 1703-1705 (2013).
[2] X. Li, X. Xiao, H. Xu, Z. Li, T. Chu, J. Yu, and Y. Yu, “Highly efficient silicon Michelson interferometer modulators,” Photonics Technology Letters, IEEE 25(5), 407-409 (2013).
[3] X. Xiao, H. Xu, X. Li, Z. Li, T. Chu, Y. Yu, and J. Yu, “High-speed, low-loss silicon Mach-Zehnder modulators with doping optimization,” Optics Express 21(4), 4116-4125 (2013).
[4] C. Zhang, J. Sun, X. Xiao, W. Sun, X. Zhang, T. Chu, J. Yu, and Y. Yu, “High efficiency grating coupler for coupling between single-mode fiber and SOI waveguides,” Chinese Physics Letter 30(1), 014207-1-4 (2013).
[5] X. Xiao, Z. Li, T. Chu, H. Xu, X. Li, N Anastasia, K. Xiong, Y. Yu, and J. Yu, “Development of silicon photonic devices for optical interconnects,” Science China Technological Sciences 56(3), 586-593 (2013).
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2012年
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[6] Y. Hu, X. Xiao, H. Xu, X. Li, K. Xiong, Z. Li, T. Chu, Y. Yu, and J. Yu, “High-speed silicon modulator based on cascaded microring resonators,” Optics Express 20(14), 15079-15085 (2012).
[7] H. Xu, X. Xiao, X. Li, Y. Hu, Z. Li, T. Chu, Y. Yu, and J. Yu, “High speed silicon Mach-Zehnder modulator based on interleaved PN junctions,” Optics Express 20(14), 15093-15099 (2012).
[8] X. Xiao, H. Xu, X. Li, Y. Hu, K. Xiong, Z. Li, T. Chu, Y. Yu, and J. Yu, “25 Gbit/s silicon microring modulator based on misalignment-tolerant interleaved PN junctions,” Optics Express 20(3), 2507-2515 (2012).
[9] X. Xiao, X. Li, H. Xu, Y. Hu, K. Xiong, Z. Li, T. Chu, J. Yu, and Y. Yu, “44-Gbit/s silicon microring modulators based on Zigzag PN junctions,” Photonics Technology Letters, IEEE 24(19), 1712-1714 (2012).
[10] Y. Hu, L. Zhou, X. Xiao, Z. Li, Y. Li, T. Chu, Y. Su, Y. Yu, and J. Yu, “An ultra-high-speed photonic temporal differentiator using cascaded SOI micro-ring resonators,” Journal of Optics 14(7), 065501-1-8 (2012).
[11] K. Xiong, X. Xiao, X. Li, Y. Hu, Z. Li, T. Chu, Y. Yu, and J. Yu, “Modeling and analysis of silicon-on-insulator elliptical microring resonators for future high-density integrated photonic circuits,” Chinese Physics B 21(7), 074203-1-6 (2012).
[12] K. Xiong, X. Xiao, X. Li, Y. Hu, Z. Li, T. Chu, Y. Yu, and J. Yu, “CMOS-compatible reconfigurable microring demultiplexer with doped silicon slab heater,” Optics Communications 285(21), 4368-4371 (2012).
[13] N. Anastasia, X. Xiao, B. Yang, T. Chu, Y. Yu, and J. Yu, “Design and characterization of a top cladding for Silicon-on-Insulator grating coupler,” Chinese Physics Letter 29(11), 114213-1-3 (2012).
[14] Z. Li, L. Zhou, T. Chu, Y. Yu, and J. Yu, “Improved extinction ration of Mach-Zehnder based optical modulators on CMOS platform,” Frontiers of Optoelectronics 5(1), 90-93 (2012).
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2010年及以前
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[15] N. Fujioka, T. Chu, and M. Ishizaka, “Compact and low power consumption hybrid integrated wavelength tunable laser module using silicon waveguide resonators,” Journal of Lightwave Technology 28(21), 3115-3120 (2010).
[16] T. Chu, N. Fujioka, and M. Ishizaka, “Compact, low power consumption wavelength tunable laser with silicon photonic-wire waveguide micro-ring resonators,” Optics Express 17(16), 14063-14068 (2009).
[17] T. Chu, H. Yamada, S. Nakamura, M. Ishizaka, M. Tokushima, Y. Urino, S. Ishida, and Y. Arakawa, “Ultra-small silicon photonic wire waveguide devices,” (invited) IEICE Transactions on Electronics 92(2), 217-223 (2009).
[18] H. Yamada, T. Chu, S. Ishida, and Y. Arakawa, “Si photonic wire waveguide devices,” (invited) IEICE Transactions on Electronics 12(6), 59-64 (2007).
[19] A.Gomyo, J. Ushida, T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “A Highly efficient optical add-drop multiplexer using photonic band gap with hexagonal lattice air-hole PC slab waveguides,” (invited) IEICE Transactions on Electronics 90, 65-71 (2007).
[20] H. Yamada, A. Gomyo, J. Ushida, T. Chu, S. Ishida, and Y. Arakawa, “Photonic crystal devices and Integrated circuits for photonic network systems,” (invited) IEICE Transactions on Communications 90, 53-59 (2007), in Japanese.
[21] T. Chu, H. Yamada, A. Gomyo, J. Ushida, S. Ishida, and Y. Arakawa, “Tunable optical notch filter realized by shifting the photonic band gap in a silicon photonic crystal line-defect waveguide,” Photonics Technology Letters, IEEE 18(24), 2614-2616 (2006).
[22] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “Tunable optical add-drop multiplexer based on silicon photonic wire waveguides,” Photonics Technology Letters, IEEE 18(13), 1409-1411 (2006).
[23] H. Yamada, T. Chu, S. Ishida, and Y. Arakawa, “Si photonic wire optical waveguide devices,” Journal of Selected Topics in Quantum Electronics on Silicon Photonics, IEEE 12(6), 1371-1379 (2006).
[24] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “Thermo-optic switch based on photonic-crystal line-defect waveguides,” Photonics Technology Letters, IEEE 17(10), 2083-2085 (2005).
[25] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “Compact 1×N thermo-optic switches based on silicon photonic wire waveguides,” Optics Express 13(25), 10109-10114 (2005).
[26] H. Yamada, T. Chu, S. Ishida, and Y. Arakawa, “Optical add-drop multiplexers based on Si-wire waveguides,” Applied Physics Letters 86(19), 191107 (2005).
[27] H. Yamada, T. Chu, S. Ishida, and Y. Arakawa, “Optical directional coupler based on Si-wire waveguides,” Photonics Technology Letters, IEEE 17(3), 585-587 (2005).
[28] H. Yamada, M. Shirane, T. Chu, S. Ishida, Y. Arakawa, and H. Yokoyama, “Nonlinear-optic silicon-nanowire waveguides,” Japanese Journal of Applied Physics 44(9R), 6541-6545 (2005).
[29] M. Yamada, N. Zui, and T. Chu, “Defect-induced birefringence in crystalline silicon ingots,” European Physical Journal-Applied Physics 27(1-3), 155-158 (2004).
[30] T. Chu, M. Yamada, J. Donecker, M. Rossberg, V. Alex and H. Riemann, “Optical anisotropy in dislocation-free silicon single crystals,” Microelectronic Engineering 66(1), 327-332 (2003).
[31] T. Chu, M. Yamada, J. Donecker, M. Rossberg, V. Alex, and H. Riemann, “Optical anisotropy and strain-induced birefringence in dislocation-free silicon single crystals,” Materials Science and Engineering: B 91, 174-177 (2002).
[32] M. Yamada, and T. Chu, “Microscopic observation of strain induced in heteroepitaxial layers with reflection type of infrared polariscope,” Journal of Crystal Growth 210(1), 102-106 (2000).
[33] T. Chu, and M. Yamada, “Photoelastic measurement of strain induced by die-bonding of GaAs chip on a copper heatsink plate,” Japanese Journal of Applied Physics 38(2S), 1153-1155 (1999).
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Invited talk and selected conference papers:
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2013年
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[34] T. Chu, X. Xiao, Z. Li, Y. Yu, and J. Yu, “CMOS-compatible silicon photonic devices for optical network-on-chip,” (invited) in the 7th International Conference on Materials for Advanced Technologies (ICMAT , Singapore, 2013), XX.
[35] X. Xiao, H. Xu, X. Li, Z. Li, T. Chu, J. Yu, and Y. Yu, “60 Gbit/s silicon modulators with enhanced electro-optical efficiency,” (oral) in the Optical Fiber Communication Conference and Exposition/National Fiber Optic Engineers Conference (OFC/NFOEC, Anaheim /USA, 2013), paper OW4J.3.
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2012年
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[36] X. Xiao, X. Li, H. Xu, Z. Li, T. Chu, J. Yu, and Y. Yu, “High-speed silicon microring modulator based on Zigzag PN junction,” (oral) in IEEE Photonics Conference (IPC, Burlingame/USA, 2012), pp. 256-257.
[37] H. Xu, X. Xiao, X. Li, Z. Li, T. Chu, Y. Yu, and J. Yu, “44Gbit/s silicon Mach-Zehnder modulator based on interleaved PN junctions,” (oral) in Proceedings of IEEE Conference on Group IV Photonics (GFPIV, San Diego/USA, 2012), pp. 201-203.
[38] H. Xu, X. Xiao, X. Li, Y. Hu, Z. Li, T. Chu, Y. Yu, and J. Yu, “High speed silicon Mach-Zehnder modulator with circuit model analysis,” (oral) in Asia Communications and Photonics Conference (ACP, Guang Zhou/China, 2012), paper AS3B.3.
[39] Y. Fu, Z. Li, T. Chu, Y. Yu, J. Yu, and Q. Li, “Broad-band efficient edge couplers for compact silicon photonic circuits,” (oral) in Conference on Information Optoelectronics, Nanofabrication and Testing (IONT, Wuhan/China, 2012), paper IF2A.6.
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2011年
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[40] K. Xiong, X. Xiao, Y. Hu, Z. Li, T. Chu, Y. Yu, and J. Yu, “Single-mode silicon-on-insulator elliptical microdisk resonators with high Q factors,” (oral) Proc. SPIE 8333, Photonics and Optoelectronics Meetings 2011, 83330A (2011).
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2010年及以前
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[41] T. Chu, N. Fujioka, S. Nakamura, M. Tokushima, and M. Ishizaka, “C and L bands wavelength tunable laser with silicon photonic-wire waveguide micro-ring resonators,” (invited) in Conference on Integrated Photonics Research, Silicon and Nanophotonics and Photonics in Switching (IPR, Monterey/California, 2010), paper IME1.
[42] T. Chu, N. Fujioka, S. Nakamura, M. Tokushima, and M. Ishizaka, “Full C and L bands wavelength tunable laser module with silicon micro-ring resonators,” (invited) in the 15th Optoelectronics and Communications Conference (OECC, Sapporo/Japan, 2010), pp. 866-867.
[43] T. Chu, N. Fujioka, S. Nakamura, M. Tokushima, and M. Ishizaka, “Compact, low power consumption wavelength tunable laser with silicon photonic-wire waveguide micro-ring resonators,” (oral) in the 35th European Conference on Optical Communication (ECOC, Vienna/Austria, 2009), paper 7.2.1.
[44] N. Fujioka, T. Chu, S. Nakamura, and M. Ishizaka, “Low reflection optical coupling for hybrid integrated wavelength tunable laser with silicon waveguide ring resonators,” (oral) in the 2009 International Conference on Solid State Devices and Materials (SSDM, Sendai/Japan, 2009), XX.
[45] M. Sakauchi1, I. Nishioka1, S. Nakamura, T. Chu, and Y. Urino, “Demonstration of fast optical protection in ROADM system with one-chip color/direction-independent add/drop multiplexer employing silicon phonic circuit,” (oral) in Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC, San Diego/USA, 2009), paper JThA51.
[46] S. Nakamura, T. Chu, M. Ishizaka, M. Tokushima, Y. Urino, M. Sakauchi, I. Nishioka, and K. Fukuchi, “Ultra-small silicon photonic device integrating an array waveguide grating and switches for flexible photonic network node,” (oral) in the 34th European Conference on Optical Communication (ECOC, Brussels/Belgium, 2008), pp.175-176.
[47] H. Yamada, T. Chu, S. Nakamura, Y. Urino, S. Ishida, and Y. Arakawa, “Si waveguide devices for optical communication,” (invited) in the 7th Pacific Rim Conference On Lasers and Electro-Optics (CLEO-Pacific Rim, Seoul/Korea, 2007), pp.216-217.
[48] H. Yamada, T. Chu, M. Tojo, S. Nakamura, M. Tokushima, Y. Urino, S. Ishida, and Y. Arakawa, “A compact optical switch module with Si-wire waveguides,” (oral) in the 4th IEEE International Conference on Group IV Photonics 2007 (GFPIV, Tokyo/Japan, 2007), pp. 119-121.
[49] T. Chu, H. Yamada, S. Nakamura, M. Tojo, Y. Urino, S. Ishida, and Y. Arakawa, “Silicon photonic-wire waveguide devices,” (invited) Proc. SPIE 6477, Integrated Optoelectronic Devices 2007, 647709 (2007).
[50] T. Chu, H. Yamada, A. Gomyo, J. Ushida, S. Ishida, and Y. Arakawa, “Reconfigurable optical add-drop multiplexer (R-OADM) based on silicon photonic crystal slab waveguides,” (invited) Proc. SPIE 6376, Optics East 2006, 63760I (2006).
[51] T. Chu, H. Yamada, A. Gomyo, J. Ushida, S. Ishida, and Y. Arakawa, “Integrated reconfigurable optical add-drop multiplexer (R-OADM) based on silicon nano-photonic waveguides,” (oral) in the 3rd IEEE International Conference on Group IV Photonics (GFPIV, Ottawa/Canada, 2006), pp.261-263.
[52] H. Yamada, T. Chu, A. Gomyo, J. Ushida, S. Ishida, and Y. Arakawa, “The photonic crystal slab and Si-wire waveguide devices,” (invited) Proc. SPIE 6351, Asia-Pacific Optical Communications Conference and Exhibition, 635122(2006).
[53] H. Yamada, T. Chu, A. Gomyo, J. Ushida, S. Ishida, and Y. Arakawa, “Integrated photonic network node chip with photonic crystals,” (invited) in the 2006 International Conference on Solid State Devices and Materials (SSDM, Tokyo/Japan, 2006), pp.42-43.
[54] A.Gomyo, J. Ushida, H. Yamada, T. Chu, S. Ishida, and Y. Arakawa, “Optical add-drop multiplexer with hexagonal-hole lattice PC slab waveguides,” (invited) Proc. SPIE 6376, Optics East 2006, 63760J(2006).
[55] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “A compact silicon nano-wire waveguide optic switch,” (poster) in the 2nd IEEE International Conference on Group IV Photonics (GFPIV, Antwerp/Belgium, 2005), pp.134-136.
[56] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “Reconfigurable optical add-drop multiplexer based on silicon nano-wire waveguides,” (oral) in the 31st European Conference on Optical Communication (ECOC, Glasgow/UK, 2005), pp.245-246.
[57] H. Yamada, T. Chu, S. Ishida, and Y. Arakawa, “Si-nanowire optical waveguide devices for optical communications,” (invited) Proc. SPIE 6019, Asia-Pacific Optical Communications, 60192X (2005).
[58] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “Thermo-optic switch based on 2D-Si photonic crystals,” (oral) in the 2nd IEEE International Conference on Group IV Photonics (GFPIV, Hongkong/China, 2004), paper FC3.
[59] T. Chu, H. Yamada, S. Ishida, and Y. Arakawa, “Photonic bandgap tuning with thermo-optic effect,” (oral) in the 17th Annual Meeting of IEEE Laser & Electron-Optics Society (LEOS, Puerto Rico/USA, 2004), pp.811-812.
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