師資
趙前程2012年本科畢業(yè)于浙江大學光電信息工程學系,,2017年博士畢業(yè)于美國加州大學爾灣分校電子與計算機工程系,,2017-2019就職于美國蘋果公司,2019-2021加入美國加州大學圣塔芭芭拉分校任博士后研究員,于2021年加入南方科技大學深港微電子學院,。
趙前程課題組致力于片上集成光子電路的研究,,包括:低損耗光波導器件和非線性集成光子器件等。在國際期刊和會議上發(fā)表論文60余篇,,包括Optica, Advanced Optical Materials, Nanophotonics, ACS Photonic, APL Photonics, Optics Express, Optics Letters等國際知名期刊,,編撰學術專著1部,多次出席國際學術會議作受邀報告,。
課題組網(wǎng)站: https://liconlab.ac.cn
教育經(jīng)歷
2017年,,美國加州大學爾灣分校,電子與計算機工程系,,博士學位
2012年,,浙江大學,光學工程,,學士學位,,輔修工程教育高級班
工作經(jīng)歷
2021年9月至今,南方科技大學,,助理教授
2019年6月至2021年6月,,美國加州大學圣塔芭芭拉分校,博士后研究員
2017年12月至2019年6月,,美國蘋果公司,,信號完整性工程師
獲得獎項
Best Paper Award, IEEE 9th Optoelectronics Global Conference, 2024
深圳市海外高層次人才C類,2021
Individualized Professional Skills Award, UC Santa Barbara, 2021
Broadcom Fellowship, Broadcom Foundation, 2014
Graduate Fellowship, UC Irvine, 2012
研究方向
低損耗集成光路,、非線性集成光子器件,、微納加工
部分代表性論文
· Mingjian You#, Zhenyu Liu, Weiren Cheng, Xingyu Tang, Ning Ding, Zhengqi Li, Min Wang, Li Shen, and Qiancheng Zhao*, "Athermal Tantalum Pentoxide Mach-Zehnder Interferometers Based on Structural Compensation Method," IEEE Photonics Journal, 17(1), 1–8, 2025. [doi: 10.1109/JPHOT.2025.3534244] (IF 2.4)
· Zhenyu Liu#, Wenle Yao, Mingjian You, Xiaolun Yu, Ning Ding, Weiren Cheng, Zhengqi Li, Xingyu Tang, Fei Guo*, Dan Lu, and Qiancheng Zhao*, “Tantalum Pentoxide Integrated Photonics: A Promising Platform for Low-Loss Planar Lightwave Circuits with Low Thermo-Optic Coefficients”, ACS Photonics, 2025. [doi: 10.1021/acsphotonics.4c01485] (IF 6.5)
· Pengzhuo Wu, Xingyu Tang, Yatao Yang, Yifan Wang, Yongxian Yan, Ziyu Pan, Xucheng Zhang, Mingjian You, Zhenyu Liu, Changjing Bao, Xingchen Ji, Yi Li*, and Qiancheng Zhao*, "Asymmetric χ(2)-translated optical frequency combs assisted by avoided mode crossing in concentric ring resonators," Opt. Express, 32(19), 32924–32938, 2024. [doi: 10.1364/OE.531644] (IF 3.8)
· Yifan Wang#, Ziyu Pan#, Yongxian Yan#, Yatao Yang#, Wenhua Zhao, Ning Ding, Xingyu Tang, Pengzhuo Wu, Qiancheng Zhao*, and Yi Li*, "A review of gallium phosphide nanophotonics towards omnipotent nonlinear devices", Nanophotonics, 2024. [doi: 10.1515/nanoph-2024-0172] (IF 8.45)
· Zhaoting Geng#, Weiren Cheng#, Zhiwei Yan, Qiyuan Yi, Zhenyu Liu, Mingjian You, Xiaolun Yu, Pengzhuo Wu, Ning Ding, Xingyu Tang, Min Wang, Li Shen, and Qiancheng Zhao*, "Low-loss tantalum pentoxide photonics with a CMOS-compatible process", Opt. Express, 32(7), 12291–12302, 2024. [doi: 10.1364/OE.518545] (IF 3.8)
· Pengzhuo Wu, Weiren Cheng, Ning Ding, Xingyu Tang, Zhaoting Geng, Zhenyu Liu, Mingjian You, Xiaolun Yu, Yi Li*, and Qiancheng Zhao*, "Investigation of χ(2)-translated Optical Frequency Combs Tunability in Gallium Phosphide-on-Insulator Resonators", IEEE Photonics Journal 16, 1–8, 2024. [doi: 10.1109/JPHOT.2024.3365214] (IF 2.4)
· Yatao Yang, Yifan Wang, Yongxian Yan, Weiren Cheng, Qiancheng Zhao*, and Yi Li*, "On-Chip Single-Molecule Fluorescence Enhancement via Slotted Gallium Phosphide Nanodisks at Anapole States", Advanced Optical Materials, 2301444, 2023. [doi: 10.1002/adom.202301444] (IF 9.93)
· Weiren Cheng#, Zhaoting Geng#, Zhuoyu Yu, Yihan Liu, Yatao Yang, Pengzhuo Wu, Houling Ji, Xiaolun Yu, Yifan Wang, Changjing Bao, Yi Li*, and Qiancheng Zhao*, "Wafer-scale inverted gallium phosphide-on-insulator rib waveguides for nonlinear photonics", Opt. Letters, 48(14), 3781–3784, 2023. [doi: 10.1364/OL.494949] (IF 3.56)
· Houling Ji, Zhaoting Geng, Weiren Cheng, Pengzhuo Wu, Zhuoyu Yu, Yihan Liu, Xiaolun Yu, Yi Li*, and Qiancheng Zhao*, "High-power two-color Kerr frequency comb generation on the gallium phosphide-on-insulator platform at SWIR and MIR spectra", JOSA B 40(8), 1976–1985, 2023. [doi: 10.1364/JOSAB.492194] (IF 2.05)
· Zhaoting Geng, Houling Ji, Zhuoyu Yu, Weiren Cheng, Pengzhuo Wu, Yi Li*, and Qiancheng Zhao*, “Dispersion-flattened Concentric Structure for Microcomb Bandwidth Broadening in GaP-OI Resonators”, JOSA B, 40(3), 673-618, 2023. [doi: 10.1364/JOSAB.477493] (IF 2.05)
· Yongxian Yan#, Tao Zhu#, Qiancheng Zhao, Rodrigo Berté*, and Y. Li*, “Launching directional hypersonic surface waves in monolithic gallium phosphide nanodisks: two holes are better than one”, Nanoscale, 2023. [doi: 10.1039/D2NR05729H] (IF 6.89)
· Qiancheng Zhao, Mark W. Harrington, Andrei Isichenko, Kaikai Liu, Ryan O. Behunin, Scott B. Papp, Peter T. Rakich, Chad W. Hoyt, Chad Fertig, and Daniel J. Blumenthal*, “Integrated Reference Cavity with Dual-mode Optical Thermometry for Frequency Correction”, Optica, 8(11), 1481-1487, 2021. [doi:10.1364/OPTICA.432194] (IF 9.78)
· Nitesh Chauhan, Andrei Isichenko, Kaikai Liu, Jiawei Wang, Qiancheng Zhao, Ryan O. Behunin, Peter T. Rakich, Andrew M. Jayich, Chad Fertig, Chad W. Hoyt, and Daniel J. Blumenthal*, “Visible light photonic integrated Brillouin laser”, Nature Communications, 12, 4685, 2021. [doi:10.1038/s41467-021-24926-8] (IF 12.12)
· Matthew Puckett#, Kaikai Liu#, Nitesh Chauhan, Qiancheng Zhao, Naijun Jin, Haotian Cheng, Jianfeng Wu, Ryan O. Behunin, Peter T. Rakich, Karl D. Nelson, Daniel J. Blumenthal*, "422 Million intrinsic quality factor planar integrated all-waveguide resonator with sub-MHz linewidth", Nature Communications, 12, 934, 2021. [doi: 10.1038/s41467-021-21205-4] (IF 12.12)
· Qiancheng Zhao, Ryan O. Behunin, Peter T. Rakich, Nitesh Chauhan, Andrei Isichenko, Jiawei Wang, Chad W. Hoyt, Chad Fertig, Mu hong Lin, and Daniel J. Blumenthal*, "Low-loss Low Thermo-Optic Coefficient Ta2O5 on crystal quartz planar optical waveguides", APL Photonics, 5(11), 116103, 2020. (Editor’s Pick) [doi: 10.1063/5.0024743] (IF 4.86)
· Qiancheng Zhao* and Ozdal Boyraz*, "Editorial for the Special Issue on Silicon Photonics Bloom", Micromachines, 11, 670, 2020. [doi: 10.3390/mi11070670] (IF 2.43)
· Mohammad Wahiduzzaman Khan#, Qiancheng Zhao, Parinaz Sadri-Moshkenani, Md Shafiqul Islam, and Ozdal Boyraz*, "Graphene-incorporated plasmo-thermomechanical infrared radiation detection", JOSA B, 37(3), 774-783, 2020. [doi: 10.1364/JOSAB.379154] (IF 2.18)
· Qiancheng Zhao, Mohammad Wahiduzzaman Khan, Shiva Farzinazar, Jaeho Lee, and Ozdal Boyraz*, "Plasmo-thermomechanical radiation detector with on-chip optical readout", Opt. Express, 26(23), 29638-29650, 2018. [doi: 10.1364/OE.26.029638] (IF 3.67)
· Qiancheng Zhao, Parinaz Sadri-Moshkenani, Mohammad Wahiduzzaman Khan, Rasul Torun and Ozdal Boyraz*, "On-Chip Bimetallic Plasmo-Thermomechanical Detectors for Mid-Infrared Radiation", IEEE Photonics Technology Letters, 29(17), 1459-1462, 2017. [doi: 10.1109/LPT.2017.2728373] (IF 2.45)
· Qiancheng Zhao, Caner Guclu, Yuewang Huang, Filippo Capolino, and Ozdal Boyraz*, "Experimental Demonstration of Directive Si3N4 Optical Leaky Wave Antennas with Semiconductor Perturbations", Journal of Lightwave Technology, 34(21), 4864-4871, 2016. [doi: 10.1109/JLT.2016.2608801] (IF 4.29)
· Qiancheng Zhao, Yuewang Huang, and Ozdal Boyraz*, "Optical properties of V-groove silicon nitride trench waveguides", J. Opt. Soc. Am. A 33, 1851-1859, 2016. [doi: 10.1364/JOSAA.33.001851] (IF 1.79)
· Qiancheng Zhao, Caner Guclu, Yuewang Huang, Filippo Capolino, Regina Ragan, and Ozdal Boyraz*, "Plasmon optical trapping using silicon nitride trench waveguides", JOSA B 33(6), 1182-1189, 2016. [doi: 10.1364/JOSAB.33.001182] (IF 2.18)