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卢华东

博士 ,教授,博士生导师

邮箱:luhuadong@sxu.edu.cn

研究方向:固体激光技术

个人简介

卢华东,山西大学教授,博士生导师,山西省光学学会常务理事;中国感光学会影像信息功能材料与技术专业委员会副主任;光电材料器件网激光与红外专家组委员会理事;中国高技术产业发展促进会激光与未来产业发展专业委员会委员; “科创中国”三晋青年百人会会员;《光学技术应用》编委会委员。长期致力于激光技术、光量子器件等方面的实验与理论研究及高技术成果转化工作。

近5年来,作为项目主持人承担的项目有国家自然科学基金面上项目 1 项、国家重点研发计划课题 1项、山西省科技重大专项项目 1 项、中央引导地方科技发展专项资金项目 1 项、山西省杰出青年基金项目 1 项、山西省专利转化专项计划项目 1 项、第一实验室-国创中心(山西)科技创新项目 1 项;在Opt. Lett、Opt. Express、IEEE J of Select. Top. in QE等国内外重要学术刊物上发表论文近80篇;以第一发明人获授权中国及美国发明专利 30 多项,转让 8 项;获得山西省技术发明奖一等奖 1 项(第一完成人),山西省技术发明奖特等奖 1 项(第四完成人),山西省专利奖 1 项(第一完成人)。2021年,被评为山西省十大科技创新人物和“山西省科教兴晋突出贡献专家”;撰写的《固体单频激光技术》一书于2024 年由科学出版社出版发行。

学术论文

[1] Yaohui He, Xiaoli Jin, Pixian Jin, Jing Su, Fang Li, Huadong Lu. Temperature Control Performance Improvement of High-Power Laser Diode with Assistance of Machine Learning. Photonics, 2025, 12(3):241.

[2] Yanlin Zhang, Jie Yang, Xuechen Cao, Pixian Jin, Huadong Lu. Generation of large energy 355 nm ultraviolet light based on a pulse-pumped Nd:YVO4 amplifier with aperture-like structure. Optics Express, 2025, 33(5), 9804-9812.

[3] Jiawei Li, Xuechen Cao, Yanlin Zhang, Jie Yang, Pixian Jin, Jing Su, Huadong Lu. Realization of a high-power UV-pumped optical parametric oscillator depending on the decrease of the color center density. Optics Express, 2025, 33(2), 2839-2846.

[4] Xuechen Cao, Donglin Cheng, Yanan Chen, Pixian Jin, Jing Su, Fang Li, Huadong Lu. Realization of a 4 kHz, large energy single-frequency ns optical parametric oscillator by suppressing optical parametric generation. Optics Express, 2025, 33(2), 1680-1689.

[5] 刘鑫宇,张艳林,曹雪辰,杨婕,苏静,卢华东. 高功率高光束质量全固态内腔三倍频355 nm 激光器. 中国激光, 2024, 51(17), 1701008.

[6] Jiliang Qin , Jialin Cheng, Shaocong Liang, Zhihui Yan, Huadong Lu, and Xiaojun Jia. Noiseless and efficient quantum information transmission for fiber-based continuous-variable quantum networks. Physical Review Applied, 2024, 21, 064026.

[7] 王子文,曹雪辰,张艳林,程东林,靳丕铦,卢华东. 采用BBO晶体产生266 nm深紫外激光过程中的热特性研究. 中国激光, 2024, 51(14), 0501011.

[8] Jiao Wei, Yongdong Wang, Ruixi Yin, Jing Su, Huadong Lu. High-power single-frequency continuous-wave 355 nm UV laser via a frequency-correlated dual-wavelength laser. Optics Letters, 2024, 49(14), 4014-4017.

[9] Yixiao Wei, Weina Peng, Jiawei Li, Pixian Jin, Jing Su, Huadong Lu. 208 W single-frequency 1064 nm laser based on a single-crystal fiber master-oscillator power amplifier. Optics Letters, 2024, 49(7), 1664-1667.

[10] Jiaqi Song, Jiliang Qin, Xuechen Cao, Donglin Cheng, Yanan Chen, Huadong Lu. High-average-power single-frequency pulse optical parametric oscillator based on pulse-integrated seed-injection automatic locking. Optics Letters, 2024, 49(9), 2365-2368.

[11] Pixian Jin, Yi Cui, Jing Su, Huadong Lu, Kunchi Peng. Continuously tunable CW single-frequency Nd:YAP/LBO laser with dual-wavelength output. Chinese Optics Letters, 2023, 21, 021403.

[12] Jiaqi Song, Jiliang Qin, Pixian Jin, Yanan Chen, Jing Su, Huadong Lu. Realization of CW single-frequency tunable Ti:sapphire laser with immunity to the noise of the pump source. Optics Express, 2023, 31(1),745-754.

[13] Yixiao Wei, Weina Peng, Jiawei Li, Pixian Jin, Jing Su, Huadong Lu, Kunchi Peng. Self-mode-matching compact low-noise all-solid-state continuous wave single-frequency laser with output power of 140 W. Optics Letters, 2023, 48(3), 676-679.

[14] Jiliang Qin, Jiaqi Song, Xuechen Cao, Donglin Cheng, Huadong Lu. High-average-power single-longitudinal-mode pulse laser based on a pulse saturation seed-injection locking OPO. Optics Letters, 2023, 48(19), 4973-4976.

[15] Xiaobin Peng, Lichao Duan, Jiao Wei, Jing Su, Huadong Lu, Kunchi Peng. Auto-pump-depleted stable single-longitudinal-mode 1.5 um source with the assistance of SHG. Optics Letters, 2023, 48(21), 5719-5722.

[16] Jiao Wei, Jing Su, Huadong Lu, Kunchi Peng. A Review of Progress about Birefringent Filter Design and application in Ti sapphire laser. Photonics, 2023, 10(11), 1217.

[17] Huiqi Yang, Pixian Jin, Jing Su, Xiaodong Xu, Huadong Lu. Realization of a continuous-wave single-frequency tunable Nd:CYA laser. Chinese Optics Letters, 2022, 20(3), 031403.

[18] Pixian Jin, Yongjie Xie, Xuechen Cao, Jing Su, Huadong Lu, Kunchi Peng. Modulation-noise-free continuously tunable single-frequency CW Ti:sapphire laser with intracavity-locked birefringent etalon. 2022, 58(1), 1700106.

[19] Jiao Wei, Pixian Jin, Xuechen Cao, Jing Su, Huadong Lu, Kunchi Peng. Direct generation of a stable multi-beam pulsed 355 nm UV laser based on a micro-lens array. Chinese Optics Letters, 2022, 20(4), 041405.

[20] Huiqi Yang, Hailong Wang, Jiaqi Song, Pixian Jin, Xiaodong Xu, Jun Xu, Huadong Lu. Low-intensity-noise single-frequency CW 1080 nm laser by employing a laser crystal with the small stimulated-emission cross section. Laser Physics Letters, 2022, 19, 055801.

[21] Yongrui Guo, Jing Su, and Huadong Lu. Optimization of the nonlinear crystal length for high-power single-frequency intracavity frequency-doubling lasers. Applied Optics, 2022, 61(26), 7565-7570.

[22] Haoming Qiao,Weina Peng, Pixian Jin, Jing Su, Huadong Lu. Performance improvement of single-frequency CW laser using a temperature controller based on machine learning. Micromachines, 2022, 13(7), 1047.

[23] Pixian Jin, Jiao Wei, Jing Su, Huadong Lu, Kunchi Peng. Recent progress in continuously tunable low-noise all-solid-state single-frequency continuous-wave laser based on intracavity locked etalon. Frontier in Physics, 2022, 10, 1029336. [24] Jiao Wei, Xuechen Cao, Pixian Jin, Zhu Shi, Jing Su, Huadong Lu. Realization of compact Watt-level single-frequency continuous-wave self-tuning titanium: sapphire laser. Optics Express, 2021, 29(2), 2679-2689.

[25] Jiao Wei, Xuechen Cao, Pixian Jin, Jing Su, Huadong Lu, Kunchi Peng. Diving angle optimization of BRF in a single-frequency continuous-wave wideband tunable titanium:sapphire laser. Optics Express, 2021, 29(5), 6714-6725.

[26] 曹雪辰,魏娇,靳丕铦,苏静,卢华东. 腔共振增强瓦级单频1240nm拉曼激光器. 中国激光, 2021, 48(05), 0501011.

[27] Huiqi Yang, Jiaqi Song, Pixian Jin, Jing Su, Huadong Lu. Investigation into the thermal effects of a Nd:YVO4 crystal at 1342 nm using the bistability-like output characteristics. Optics Communications, 2021, 481(15), 126543.

[28] Weina Peng, Pixian Jin, Fengqin Li, Jing Su, Huadong Lu, Kunchi Peng. A review of the high-power all solid-state single-frequency continuous-wave laser. Micromachines, 2021, 12(11), 1426.

科研项目

[1] 弱光锁相控制综合电子系统中敏感元器件研究.科技部,国家重点研发计划课题,2022.11-2027.10,在研,主持人

[2] 可用于光刻机的248nm深紫外激光光源研制. 太原市科技局, 第一实验室-国创中心(山西)科技创新项目,2022.12-2025.12,在研,主持人

[3] 200W单晶光纤单频连续波1064nm激光器关键技术研究.山西省科技厅,山西省杰出青年基金项目,2022.01-2025.01,资助期满,主持人

[4] 基于内腔标准具锁定的连续可调谐单频钛宝石激光器.山西省知识产权局,山西省专利转化专项计划项目,2023.04-2024.03,结题,主持人

[5] 采用三倍频技术研制用于光刻机的248nm深紫外激光光源山西省科技厅,山西省科技重大专项项目,2020.07-2022.07,结题,主持人

[6] 光刻机用激光器研发中心.山西省科技厅,中央引导地方科技发展资金项目,2020.01-2021.12,结题,主持人

教材与专著

[1] 卢华东;苏静;彭堃墀. 固体单频激光技术. 科学出版社2024