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赵前程

助理教授
个人简介

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赵前程2012年本科毕业于浙江大学光电信息工程学系,2017年博士毕业于美国加州大学尔湾分校电子与计算机工程系,2017-2019就职于美国苹果公司,2019-2021加入美国加州大学圣塔芭芭拉分校任博士后研究员,于2021年加入南方科技大学深港微电子学院。
赵前程课题组致力于片上集成光子电路的研究,包括:低损耗光波导器件和非线性集成光子器件等。在国际期刊和会议上发表论文60余篇,包括Optica, Advanced Optical Materials, Nanophotonics, APL Photonics, Optics Express, Optics Letters等国际知名期刊,编撰学术专著1部,多次出席国际学术会议作受邀报告。
课题组网站: https://liconlab.ac.cn
招聘信息
赵前程课题组常年招聘科研助理、博士生、硕士生、本科实习生,有意应聘者请将简历(格式PDF)发送至以下邮箱,以“招聘岗位_应聘者姓名”为题。招聘要求请查看 https://liconlab.ac.cn/。
联系方式:zhaoqc@sustech.edu.cn
教育经历

2017年,美国加州大学尔湾分校,电子与计算机工程系,博士学位
2012年,浙江大学,光学工程,学士学位,辅修工程教育高级班

工作经历

2021年9月至今,南方科技大学,助理教授
2019年6月至2021年6月,美国加州大学圣塔芭芭拉分校,博士后研究员
2017年12月至2019年6月,美国苹果公司,信号完整性工程师

研究简介

无源光波导器件及应用
非线性集成光子器件及应用
集成光学微纳工艺

所获荣誉

深圳市海外高层次人才C类,2021
Individualized Professional Skills Award, UC Santa Barbara, 2021
Broadcom Fellowship, Broadcom Foundation, 2014
Graduate Fellowship, UC Irvine, 2012
国家奖学金, 中国教育部,2009

代表文章

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.
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.
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.
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.
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.
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," OL, 48(14), 3781–3784, 2023.
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
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.
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).
Qiancheng Zhao#* and Ozdal Boyraz*. "Editorial for the Special Issue on Silicon Photonics Bloom." Micromachines, 11(7), 670, 2020.
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.
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.
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.