陈怀熹
副教授,硕士生导师
E-mail:chenhx@fjnu.edu.cn
个人简介
陈怀熹,博士,副教授,福建省光电行业协会副秘书长、理事。2012.07-2023.12在中国科学院福建结构研究所国家光电子晶体材料工程技术研究中心先后任研究实习员、助理研究员、高级工程师和硕士生导师, 2023年12月以高层次人才入职福建师范大学光电与信息工程学院。主要从事半导体晶圆光刻工艺、精密光学元器件制造工艺、光电传感元器件、铌酸锂基波导集成光学器件研究和周期极化晶体(PPXX)的工艺制造,突破了大尺寸极化晶体制备工艺技术和高效率批频率转换波导器件的制作难题,为国内中远红外激光和航天原子冷钟等领域解决关键核心器件。先后主持了国家实验室量子科学仪器专项、中央军事委员会装备发展部XX行动专项重点项目、国防科工局军品XX项目、国防基础科研项目、福建省STS专项以及多个企业横向课题,作为核心成员参与了国家863计划、国家自然基金重点项目、福建省重大专项、中科院双创引导项目等多个国家级和省部级重大项目。在Opto-electronic Science,Optics Express,Optics and Laser Technology等光学工程领域重要期刊上累计发表相关论文40余篇,获得7项发明专利授权,担任Optics Letters、Optics Express等杂志审稿人。参与开发的产品获获得光电行业卓越光电器件奖和OFFWEEK所颁发的“最具潜力器件奖”等荣誉。
研究方向
集成光学元器件的工艺制造
非线性光学
光电探测与传感
科研项目
[1] XX揭榜挂帅项目,近紫外XX晶体器件,2024.10-2026.07,401.8万元,在研,主持;
[2] 企业横向委托项目,光电子器件封装中金锡焊接技术的研究,2024.08-2026.07,10.0万元,在研,主持;
[3] 国家实验室量子科技仪器专项,2023YQ02002,低损耗PPLN量子频率接口,2023.12-2025.05,240.6万元,在研,主持;
[4] 企业重大横向委托项目,铌酸锂晶体高速调制芯片的设计、器件封装和产业化开发,2024.01-2026.12,320.0万元,在研,主持;
[5] 福建省中科院STS计划配套院省合作项目,基于光热折变玻璃的体全息光栅的制备及产业化技术研究,2022.03-2025.02,40.0万元,在研,主持;
[6] 福州市科技重大专项,高精度衍射光学元件设计及制造成套技术与应用,2023.10-2026.06,150.0万元,在研,核心人员
[7] 装发XX行动专项,高效率XX器件,2021.12-2022.12,356.76万元,结题,成果方,主持;
[8] 高性能PPKTP晶体材料及器件的研发,闽都创新实验室自主部署,2021.06-2024.05,300.0万,在研,核心人员
[9] 国防基础科研项目,大孔径XX器件,2022.01-2022.12,25.0万元,结题,主持;
[10] 国防科工局稳定支持项目,端面耦合XX器件,2023.07-2023.12,26.0万元,结题,主持;
[11] 国防科工局军品XX项目,高性能XX材料及器件的研发,2017.01-2019.12,437.0万元,结题,实际主持;
[12] XX外协项目,周期极化变频晶体(XX),2020.10-2020.12,30.0万元,结题,主持;
[13] 企业横向委托项目,高精度内窥镜成像光阑的批量化工艺技术研究,2020.07- 2022.06,10.0万元,结题,主持;
[14] 企业横向委托项目,医用高稳定双波长激光技术的研究,2021.06-2023.06,10.0万元,结题,主持;
[15] 福建省STS项目,高精度多节(5-10节)锂电池保护芯片的设计和关键技术研究,2020.01-2023.12,40.0万,合作单位课题负责人
[16] 中科院仪器装备专项,极化晶体畴结构无损表征系统的研制,2014.01-2015.12,265.0万,已结题,核心人员
[17] 国家863计划,高性能激光引擎关键材料与器件工程技术研发,2013.01-2015.12,1640.0万,已结题,核心人员
[18] 福建省科技重大专项,激光-LED混合白光模组的研制及其在激光投影仪中的应用开发,2012.01-2015.12,500.0万,已结题,核心人员
部分代表性论著
[1] J. Chen; J. Wu; C. Song; X. Feng; X. Zhang; W. Liang; C. Chen; X. Zhang;H. Chen*; H. Huang*, Monitoring soliton self-frequency shifting via spectral reconstruction with a step-chirped PPMgLN ridge waveguide,Optics & Laser Technology, 2025, 190: 113271.
[2] H. Huang; N. Li; W. Weng;H. Chen*; F. Shi; H. Liu; X. Zhang; W. Lin, Above 45 W thermal lens compensated acousto-optically Q-switched Tm:YAPlaser,Optics Express, 2025, 33(5): 9434-9445.
[3] Huang H;Chen H*; Liu H; et al., High-intensity spatial-mode steerable frequency up-converter toward on-chip integration,Opto-Electronic Science, 2024, 3(4): 230026.
[4] Wu Q; Feng X; Chen J;Chen H*; et al., Simulation design of thin film lithium niobate electro-optic modulator with bimetallic layer electrodes,Optoelectronics Letters, 2024, 20(6): 321-326.
[5] Xing T; Wang X; Ou Z;Chen H; et al., Peak-power of 25 W passively Q-switched ∼2.8 μm Er:YAPbulk laser based on a reflective TaSe2 saturable absorber mirror,Optics & Laser Technology, 2024, 169: 110051.
[6] Wang H; Song L; Chen T;Chen H; et al., 1283–1460 nm continuously tunable, watt-level bismuth-doped phosphosilicate fiber laser and its frequency doubling to a visible laser,Optics Letters, 2024, 49(15): 4062-4065.
[7] Song L; Wang H; Ruan Q;Chen H; et al., 790–1000 nm continuously-tunable fiber-based femtosecond laser source,Infrared Physics & Technology, 2024, 141: 105455.
[8] Cheng X; Feng X; Ma L;Chen H*; et al., Fabrication and characterization of high-damage resistance Zn-diffused MgO:PPLNridge waveguides,Optoelectronics Letters, 2024, 20(1): 12-17.
[9] Ma L; Feng X;Chen H; et al., Compact yellow-orange Nd:YVO4/PPMgLN laser at 589 nm,Optoelectronics Letters, 2023, 19(11): 641-645.
[10] Li J; He Y; Zheng H;Chen H; et al., Cascaded domain engineering optical phased array for beam steering,Applied Physics Reviews, 2023, 10(3): 031408.
[11] Feng X;Chen H*; Huang H; Zhang X; et al., A bond-free PPLN thin film ridge waveguide,Optics & Laser Technology, 2023, 162: 109298.
[12] Chen J;Chen H*; Feng X; Zhang X; Liang W, 355 nm ultraviolet laser output based on a PPMgLN crystal,Applied Optics, 2023, 62(13): 3380-3386.
[13] Chen D; Zhang H; Xiao Y; Zhang Z; Chen W; Huang S;Chen H, Fiber grating loop ring-down strain sensors using overlap spectrum demodulation and machine learning algorithm,Optical Fiber Technology, 2023, 76: 103248.
[14] Tang L; Weng W;Chen H; et al., Photoexcited ultraviolet-to-infrared (II) pyroelectricity in a 2D ferroelectric perovskite driving broadband self-powered photoactivities,Advanced Functional Materials, 2023, 33(22): 2214858.
[15] Wang L; Peng H; Zheng L;Chen H; et al., Broadband and CMOS-compatible polarization splitter and rotator built on a silicon nitride-on-silicon multilayer platform,Applied Optics, 2023, 62(4): 1046-1056.
[16] 冯新凯;陈怀熹*; 陈家颖; 等, 光纤耦合周期极化铌酸锂薄膜波导器件的研究, 《中国激光》, 2023, 50(22): 2208001.
[17]Chen H*; Huang H; Cheng J; et al., Broadband yellow-orange light generation based on a step-chirped PPMgLN ridge waveguide,Optics Express, 2022, 30(18): 32110-32118.
[18] 郭磊;陈怀熹*; 张新彬; 等, 基于 MgO:PPLN啁啾结构和频的宽谱黄-橙激光输出, 《激光与光电子学进展》, 2020, 57(9): 091901.
[19] 孙杰;陈怀熹*; 张新彬; 等, 基于级联 PPMgLN 晶体的双倍/三倍频双波长激光器, 《人工晶体学报》, 2021, 50(7): 1386.
[20] Guo W;Chen H*; Zhang X; et al., Broadband second-harmonic generation in a tapered PPLN waveguide,Optoelectronics Letters, 2020, 16(4): 252-255.
[21] Guo W;Chen H; Liu X; et al., Rational alloying of secondary and aromatic ammonium cations in a metal-halide perovskite toward crystal-array photodetection,Science China Materials, 2022, 65(1): 179-185.
[22] Wang B;Chen H; Guo W; et al., Cage-incorporation of secondary amine in Ruddlesden–Popper 2D hybrid perovskite with strong photoconductivity and polarization response,Journal of Materials Chemistry C, 2021, 9(48): 17349-17356.
[23] Wang L; Han F;Chen H; et al., CMOS-compatible, broadband, and polarization-independent edge coupler for efficient chip coupling with standard single-mode fiber,Applied Optics, 2022, 61(26): 7798-7806.
[24] Ji C; Wang S; Wang Y;Chen H; et al., 2D Hybrid Perovskite Ferroelectric Enables Highly Sensitive X-Ray Detection with Low Driving Voltage,Advanced Functional Materials, 2020, 30(5): 1905529.
发明专利
[1] 陈怀熹,等人. 扇形周期光学超晶格极化晶体的制备方法及极化设备,授权发明专利,CN109814180B,2020.05.05。
[2] 陈怀熹, 等人. 无腔镜光参量振荡器及其制作方法,中远红外激光器,授权发明专利,CN108711728A,2020.02.21。
[3] 陈怀熹, 等人. 一种超连续谱激光光源,授权发明专利,CN111384654A,2020.07.07。
