卢华东

卢华东,男,1981年生,山西大学教授,博士生导师,山西省光学学会常务理事20191月至20201月,新加坡国立大学访问学者。目前是英国伦敦期刊出版社季度富兰克林会员(Quarterly Franklin Membership) (No. ID#NA08375),担任《光学技术》2018-2020年度青年编委,应邀担任美国光学学会(OSA)、国际电气电子工程师学会(IEEE)、中国激光杂志社等期刊的审稿人。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。作为项目负责人主持了科技部国家重点研发计划子课题1项、国家自然科学基金2项,山西省科技重大专项项目1项,中央引导地方专项基金项目1项;作为骨干参与国家重点研发计划、国家自然科学基金仪器专项、面上项目多项。先后在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50篇。授权美国及中国发明专利16项,转让5项。发展了一种利用非线性光学效应大幅度提升全固态单频连续波激光器整体性能的关键技术和方法,将我国的激光器性能推进到世界先进水平。在对激光器的工作原理进行研究的同时,开展了激光器的转化和产业化工作,将自己的科研成果转化为生产力。到目前为止,已经将输出功率为50W、100W的连续单频1064nm激光器以及输出功率为10W、25W的连续单频532nm激光器转化为产品。同时,还开发了连续单频可调谐钛宝石激光器及连续单频可调谐内腔倍频钛宝石激光器。所转化的产品已经全部实现小批量生产,所生产的激光器已经销售到包括香港科技大学、空气动力研究与发展中心、中科院物理所、航天三院、清华大学在内的许多高校、科研院所以及军事和国防单位使用,收到了广泛的好评。


奖励荣誉

1、山西省科学技术一等奖

2、山西省专利二等奖

3、入选山西省“三晋英才”

4、入选山西省优秀青年学术带头人

5、山西省科教兴晋突出贡献专家

6、山西省“兴晋挑战杯”特等奖优秀指导教师

7、并州杯太原促进转型创新高价值专利培育大赛三等

8、山西大学十佳青年教师


科研项目

1、第一实验室-国创中心(山西)科技创新项目,xxx激光光源,2022/12-2025/12,3000万,在研,主持;

2、山西省专利转化专项计划项目,202305007,基于内腔电光标准具锁定的连续可调谐单频钛宝石激光器,2023/04-2024/03,20万,已结题,主持;

3、国家重点研发计划项目,2022YFC2204003,弱光锁相控制系统中敏感元器件研究,2022/11-2027/10,493万元,在研,主持;

4、山西省应用基础研究计划(杰出青年培育项目),202103021221004 , 200W单晶光纤单频连续波1064nm激光器关键技术研究,2022/01-2024/12,50万,主持;

5、国家自然科学基金国家重大科研仪器研制项目,62027821,亚音频段非经典光源研制,2021/01-2025/12,764.6万元,在研,课题负责人;

6、山西省科技重大专项项目,20201103001,xxxnm深紫外激光光源,2020/07-2022/07,3500万,已结题,主持;

7、中央引导地方科技发展资金项目,YDZX20201400002073,光刻机用激光器研发中心,2020/07-2021/12,300万,已结题,主持;

8、国家自然科学基金面上项目,61975100,单晶光纤单频连续波激光器关键技术研究,2020/01-2023/12,59万元,已结题,主持;

9、国家重点研发计划,2017YFB0301403,大能量及高功率低噪声单频激光器关键技术研究,2017/07-2020/12,393万元,已结题,子课题承担单位负责人;

10、国家重点研发计划,2016YFA0301401,研制高压缩度和纠缠度的非经典光源,2016/07-2021/6,754万元,在研,参加(项目骨干);

11、355-I型激光器研发,400万项目,结题;

12、国家自然科学基金青年科技研究基金项目,61405107,非线性损耗对单频钛宝石激光器调谐特性影响的研究,2015/01-2017/12,25万元,已结题,主持;

13、山西省自然科学基金青年科技研究基金,2014021011-3,频率连续扫描的全固态连续单频钛宝石激光器,2014/01-2016/12,3万元,已结题,主持;

14、山西省高校科技创新项目,2013104,EPR纠缠态的相干反馈控制研究,2013/07-2015/06,2万元,已结题,主持;

15、国家自然科学基金专项基金项目,61227015,连续变量量子纠缠态光源样机的研制,2013/01-2016/12,290万元,已结题,参加;

16科技部国家重大科学仪器设备开发专项,2011YQ03012703,单频连续1064nm振荡源研制,2011/10-2014/09,290万元,已结题,参加;


代表性论文:

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

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

3、Pixian Jin, Yi Cui, Jing Su, Huadong Lu*, and Kunchi Peng, “Continuously tunable CW single-frequency Nd:YAP/LBO laser with dual-wavelength output,” Chinese Optics Letters,  48(21), 5719-5722 (2023).

4、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, 31(1),745-754 (2023).

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

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

7、Jiao Wei, Jing Su, Huadong Lu* ,and Kunchi Peng, “A Review of Progress about Birefringent Filter Design and application in Ti sapphire laser,” Photonics,10(11),1217 (2023).

8、Huiqi Yang, Pixian Jin, Jing Su, Xiaodong Xu and Huadong Lu*, “Realization of a continuous-wave single-frequency tunable Nd:CYA laser,”  Chinese Optics Letters, 20(3), 031403 (2022).

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

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

11、Huiqi Yang, Hailong Wang, Jiaqi Song, Pixian Jin, Xiaodong Xu, Jun Xu, and Huadong Lu*. “Low-intensity-noise single-frequency CW1080 nm laser by employing a laser crystal with the small stimulated-emission cross section,”  Laser Physics Letters, 19, 055801 (2022).

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

13、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, 13(7), 1047 (2022).

14、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, 10, 1029336 (2022).

15、Jiao Wei, Xuechen Cao, Pixian Jin, Zhu Shi, Jing Su, and Huadong Lu*, “Realization of compact Watt-level single-frequency continuous-wave self-tuning titanium: sapphire laser,” Opt. Express,29(2), 2679-2689 (2021).

16、Jiao Wei, Xuechen Cao, Pixian Jin, Jing Su, Huadong Lu* and Kunchi Peng. “Diving angle optimization of BRF in a single-frequency continuous-wave wideband tunable titanium:sapphire laser,” Opt. Express, 29(5), 6714-6725 (2021).

17、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, 48(05), 0501011 (2021).

18、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, 481(15), 126543 (2021).

19、Weina Peng, Pixian Jin, Fengqin Li, Jing Su, Huadong Lu*, and Kunchi Peng,“A review of the high-power all solid-state single-frequency continuous-wave laser,” Micromachines,12(11), 1426 (2021).

20Yongrui Guo, Weina Peng, Jing Su, Huadong Lu*, and Kunchi Peng, “Influence of the pump scheme on the output power and the intensity noise of a single-frequency continuous-wave laser,” Opt. Express, 28(4), 5866-5873 (2020).

21Huiqi 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 characteritics,”  Opt. Commun., 481(15), 126543(2020).

22Huadong Lu*, and Dharmalingam Mangaiyarkarasi, “Thermal focal length determination of a laser crystal by modulating the pump source,” Laser Phys., 30(6), 066205 (2020).

23、赵彪、秦玮霞、李凤琴*,卢华东, “全固态连续单频266nm深紫外激光器,”  量子光学学报,26(2), 194-201 (2020).

24、赵鹏飞、苏静*、徐敏志,卢华东, “全固态高稳定355nm紫外脉冲激光器,”  量子光学学报, 26(2), 202-209 (2020).

25、Yongrui Guo, Huadong Lu*, Weina Peng, Jing Su, and Kunchi Peng, “Intensity noise suppression of a high-power single-frequency CW laser by controlling the stimulated emission rate,” Opt. Lett., 44(24), 6033-6036 (2019).

26、Fengqin Li, Biao Zhao, Jiao Wei, Pixian Jin, Huadong Lu*, and Kunchi Peng, “Continuously tunable single-frequency 455 nm blue laser for high-state excitation transition of cesium,” Opt. Lett., 44(15), 3785-3788 (2019).

27、Minzhi Xu, Yongrui Guo, Jing Su, and Huadong Lu*, “125 W single-frequency CW Nd:YVO4 laser based on two-stage dual-end-pumped master-oscillator power amplifiers,” Laser Phys. Lett., 16, 036201 (2019).

28、Juan Yu, Yue Qin, Zhihui Yan, Huadong Lu, and Xiaojun Jia*, “Improvement of the intensity noise and frequency stabilization of Nd:YAP laser with an ultra-low expansion Fabry-Perot cavity,” Opt. Express, 27(3), 3247-3254 (2019)

29、徐敏志、张婷、郭永瑞、彭威娜,卢华东*, “主振荡功率放大中的激光晶体热分布的理论研究,” 量子光学学报, 25(2), 221-227 (2019).

30、Yongrui  Guo, Huadong Lu*, Minzhi Xu, Jing Su, and Kunchi Peng,  “Investigation about the influence of longitudinal-mode structure of  the laser on the relative intensity noise properties,” Opt. Express,  26(16), 21108-21118 (2018).

31、Pixian  Jin, Huadong Lu*, Qiwei Yin, Jing Su, and Kunchi Peng, “Expanding  continuous tuning range of a CW single-frequency laser by combining  an intracavity etalon with a nonlinear loss,”  IEEE J. Selected  Topics in Quantum Electron., 24(5), 1600505 (2018).

32、Yongrui Guo, Minzhi Xu, Weina Peng, Jing Su, Huadong Lu*, Kunchi  Peng, “Realization of a 101 W single-frequency continuous wave  all-solid-state 1064 nm laser by means of mode self-reproduction,”  Opt. Lett., 43(24), 6017-6020 (2018).

33、Pixian  Jin, Huadong Lu*, Yixiao Wei, Jing Su, and Kunchi Peng,  “Single-frequency CW Ti:sapphire laser with intensity noise  manipulation and continuous frequency-tuning,”  Opt. Lett., 42(1),  143-146 (2017).

34、Yixiao  Wei, Huadong Lu*, Pixian Jin, and Kunchi Peng, “Self-injection  locked CW single-frequency tunable Ti:sapphire laser,” Opt. Express,  25(18), 21379-21387 (2017).

35、Jiao  Wei, Huadong Lu*, Pixian Jin, and Kunchi Peng, “Investigation on the  thermal characteristic of MgO:PPSLT crystal by transmission spectrum  of a swept cavity,” Opt. Express, 25(4), 3545-3552 (2017).

36、Yongrui  Guo, Huadong Lu*, Qiwei Yin, and Jing Su, “Intracavity round-trip  loss measurement of all-solid-state single-frequency laser by  introducing extra nonlinear loss,” Chin. Opt. Lett., 15(2), 021402  (2017).

37、郭永瑞、卢华东*、苏静、彭堃墀,百瓦级全固态连续单频1064nm激光器的研究,”中国激光, 44(6), 0601007 (2017).

38、苏静、靳丕铦,卫毅笑,卢华东*,彭堃墀,“自动宽调谐的全固态连续单频钛宝石激光器,” 中国激光, 44(7), 0701006 (2017).

39、张连平、殷国玲、李凤琴*、石柱、卢华东,“900nm波段的全固态高功率单频可调谐钛宝石激光器,” 中国激光, 44(12), 1201002 (2017).

40、Qiwei  Yin, Huadong Lu*, Jing Su and Kunchi Peng, “High power  single-frequency and frequency-doubled laser with active  compeasation for the thermal lens effect of  terbium gallium garnet crystal,”Opt. Lett.,  41(9), 2033-2036 (2016).

41、Huadong  Lu*, Jiao Wei, Yixiao Wei, Jing Su, and Kunchi Peng, “Generation of  high-power single-frequency 397.5 nm laser with long lifetime and  perfect beam quality in an external enhancement-cavity with MgO-doped  PPSLT,” Opt. Express, 24(21), 23726-23734 (2016).

42、Fengqin  Li, Huijuan Li, and Huadong Lu*, “Realization of a tunable 455.5-nm  laser with low intensity noise by intracavity frequency-doubled  Ti:sapphire laser,” IEEE J. Quantum Electron., 52(2), 1700106  (2016).

43、Pixian  Jin, Huadong Lu*, Jing Su, and Kunchi Peng, “A scheme of improving  laser stability via feedback-control of intracavity nonlinear loss,”  Appl. Opt., 55(13), 3478-3482 (2016).

44、Li  Fengqin, Li Huijuan, Lu Huadong*, and Peng Kunchi, “High-power  tunable single-frequency 461 nm generation from an intracavity  doubled Ti:sapphire laser with PPKTP,” Laser Phys., 26, 025802  (2016)

45、Huadong  Lu*, Yongrui Guo, and Kunchi Peng, “Intensity noise manipulation of  a single-frequency laser with high output power by intracavity  nonlinear loss,” Opt. Lett., 40(22), 5196-5199 (2015).

46、Qiwei  Yin, Huadong Lu*, and Kunchi Peng, “Investigation of the thermal  lens effect of the terbium gallium garnet crystal in high-power frequency-doubled laser  with single frequency operation,” Opt. Express, 23(4), 4981-4990  (2015).

47、Wenhai  Yang, Yajun Wang, Yaohui Zheng*, and Huadong Lu, “Comparative study  of the frequency-doubling performance on ring and linear cavity at  short wavelength region,” Opt. Express, 23(15), 19624-19633 (2015).

48、Huadong  Lu*, Xuejun Sun, Jiao Wei, and Jing Su, “Intracavity  frequency-doubled and single-frequency Ti:sapphire laser with  optimal length of the gain medium,” Appl. Opt., 54(13), 4262-4266  (2015).

49、Xuejun  Sun, Jiao Wei, Wenzhe Wang, and Huadong Lu*, “Realization of a  continuous frequency-tuning Ti:sapphire laser with an intracavity  locked etalon,” Chin. Opt. Lett., 13(7), 071401 (2015).

50、Huadong  Lu, Jing Su, Yaohui Zheng*, and Kunchi Peng, “Physical conditions of  single-longitudinal-mode operation for high-power all-solid-state  lasers”, Opt. Lett., 39(5), 1117-1120 (2014).

51、Huadong  Lu*, Xuejun Sun, Meihong Wang, Jing Su and Kunchi Peng, “Single  frequency Ti:sapphire laser with continuous frequency-tuning and low  intensity noise by means of the additional intracavity nonlinear  loss”, Opt. Express, 22(20), 24551-24558 (2014).

52、Chenwei  Zhang, Huadong Lu*, Qiwei Yin, and Jing Su, “Continuous-wave  single-frequency laser with dual wavelength at 1064 and 532 nm”,  Appl. Opt., 53(28), 6371-6374 (2014).

53、Wenzhe  Wang, Huadong Lu*, Jing Su and Kunchi Peng, “Broadband tunable  single-frequency Nd:YVO4/LBO green laser with high output power”,  Appl. Opt., 52(11), 2279-2285 (2013).

54、卢华东*,利用弛豫振荡频率和输出功率测量单频钛宝石激光器的腔内损耗, 中国激光, 40(4), 0402002 (2013).

55、Huadong  Lu, Jing Su*, Changde Xie and Kunchi Peng, “Experimental  investigation about influences of longitudinal-mode structure of  pumping source on a Ti:sapphire laser”, Opt. Express, 19(2),  1344-1353 (2011).

56、卢华东、苏静*、彭堃墀,利用光电反馈抑制钛宝石激光器低频段的强度噪声, 中国激光, 38(4), 0402014 (2011).

57、卢华东、苏静*、彭堃墀,全固态连续单频可调谐钛宝石激光器腔内损耗及最佳透射率的研究, 中国激光, 37(9), 2328-2333 (2010).

58、卢华东、苏静*、李凤琴、王文哲、陈友桂、彭堃墀,紧凑稳定的可调谐钛宝石激光器, 中国激光, 37(5), 1166-1171 (2010).


专利情况:

1、卢华东,宋佳齐,秦际良,彭堃墀. 基于脉冲积分自动注入锁定的高功率单频脉冲激光器. 中国,ZL202310699379.9,授权日:2024.3.12

2、卢华东, 卫毅笑, 苏静, 彭堃墀. 一种全固态连续波单频激光器. 中国,ZL202211243135.1,授权日:2023.08.08

3、卢华东,魏娇,苏静,彭堃墀,一种直接产生稳定的多光束脉冲紫外激光的装置和方法,中国,ZL202011324733.2,授权日:2021.11.19。

4、卢华东,郭永瑞,苏静,彭堃墀,一种单谐振腔实现百瓦级连续单频全固态激光器,中国,ZL201811443292.0 授权日:2020.12.25

5、苏静,卢华东,杨慧琦,彭堃墀,测量激光增益晶体内能量传输上转换热负荷的装置和方法,中国,ZL201911212703.X,授权日:2020.11.03

6、苏静,卢华东,杨慧琦,彭堃墀,一种测量激光增益晶体内激发态吸收热负荷的装置和方法,中国,ZL201911212682.1,授权日:2020.10.09

7、卢华东,郭永瑞,苏静,彭堃墀,连续波单频内腔倍频激光器倍频晶体最佳长度的选取方法,中国,ZL201810092930.2 授权日:2020.02.14

8、Huadong Lu, Pixian Jin, Jing Su, Kunchi Peng, Method for expanding range of all-solid-state continuous-wave single frequency laser, US, US,10,326,250 B2, Date of Patent: Jun. 18, 2019.

9、卢华东,靳丕铦,苏静,彭堃墀,实现自动宽调谐的单频连续波全固态钛宝石激光器,中国,ZL201710343774.8 授权日:2019.04.05

10、卢华东,靳丕铦,苏静,彭堃墀,基于内腔电光标准具锁定的连续可调谐单频钛宝石激光器,中国,ZL201610946807.3 授权日:2019.04.05

11、卢华东,靳丕铦,苏静,彭堃墀,一种扩展全固态连续波单频激光器调谐范围的方法,中国,ZL201710861314.4 授权日:2019.02.26

12、卢华东,魏娇,苏静,彭堃墀,一种测量非线性晶体热透镜焦距的装置和方法,中国,ZL201710041976.7 授权日:2018.10.26

13、卢华东,靳丕铦,苏静,彭堃墀,一种激光器功率稳定装置及方法,中国,ZL201510492404.1 授权日:2018.06.26

14、卢华东,靳丕铦,苏静,彭堃墀,一种高稳定性的全固态激光器,中国,ZL201510492390.3,授权日:2018.05.15

15、卢华东,郭永瑞,苏静,彭堃墀,全固态激光器腔内线性损耗的测量方法,中国,ZL.201610355542.X,授权日:2018.04.24

16、卢华东,尹祺巍,彭堃墀,高功率内腔倍频单频激光器,中国,ZL201510040593.9,授权日:2018.04.03

17、卢华东,孙雪俊,王美红,石柱,苏静,彭堃墀,连续可调谐单频钛宝石激光器,中国,ZL201410486214.4,授权日:2017.03.15

18、卢华东,苏静,彭堃墀,全固态激光器腔内损耗的测量方法,中国,ZL201210094396.1,授权日:2014.01.29

19、郑耀辉,卢华东,李凤琴,张宽收,王尚廉,王文哲,彭堃墀,一种用于控制光学晶体温度的高温温度控制仪,中国,ZL200610012830.1,授权日:2008.01.23


专利转让情况:

1、卢华东,魏娇,苏静,彭堃墀,一种测量非线性晶体热透镜焦距的装置和方法,中国,ZL201710041976.7,授权日:2018.10.26。(转让年度:2023

2、靳丕铦; 卢华东; 苏静; 彭堃墀,基于双折射标准具锁定的单频连续波可调谐钛宝石激光器,中国,ZL202110434548.7授权日:2022.08.23。(转让年度:2023年)

3、卢华东; 郭永瑞; 苏静; 彭堃墀,一种单谐振腔实现百瓦级连续单频全固态激光器,中国,ZL201811443292.0,授权日:2020.12.25。(转让年度:2021年)

2、卢华东,郭永瑞,苏静,彭堃墀,连续波单频内腔倍频激光器倍频晶体最佳长度的选取方法,中国,ZL201810092930.2 授权日:2020.02.14。(转让年度:2020年)

3、苏静,卢华东,杨慧琦,彭堃墀,一种测量激光增益晶体内激发态吸收热负荷的装置和方法,中国,ZL201911212682.1,授权日:2020.10.09。(转让年度:2020年)

4、卢华东,靳丕铦,苏静,彭堃墀,一种激光器功率稳定装置及方法,中国,ZL201510492404.1 授权日:2018.06.26。(转让年度:2019年)

5、卢华东,郭永瑞,苏静,彭堃墀,全固态激光器腔内线性损耗的测量方法,中国,ZL.201610355542.X,授权日:2018.04.24。(转让年度:2019年)

6、卢华东,孙雪俊,王美红,石柱,苏静,彭堃墀,连续可调谐单频钛宝石激光器,中国,ZL201410486214.4,授权日:2017.03.15。(转让年度:2017年)


产品开发:

1 全固态单频连续波单谐振腔1064nm红外激光器,最高输出功率达到100W,国际上同类激光器最高指标。

2 全固态单频连续波单谐振腔532nm绿光激光器,最高输出功率达到50W,国际上同类激光器最高指标。

3 全固态单频连续可调谐532nm绿光激光器,最大频率连续调谐范围为222GHz,国际上同类激光器最高指标。

4 系列全固态连续单频可调谐钛宝石激光器,最大调谐范围300nm,填补了国内空白。

5 全固态连续单频倍频器,输出波长可覆盖266nm398455等紫外到蓝光波段,满足不同领域的需求。

6、系列全固态脉冲355nm激光器,输出功率为3W5W10W,可分别用于激光打标、激光切割等工业领域。


联系方式

地址:山西省太原市坞城路92号,山西大学光电研究所  030006

Tel: 0351-7113880

Email: luhuadong@sxu.edu.cn;lu_sxu@163.com