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卢华东男,1981年生,教授,博导。主要致力于激光技术、光量子器件等方面的理论与实验研究、高技术成果转化以及产品的开发和生产。近年来,作为项目负责人先后承担国家重点研发计划子课题1项,国家自然科学基金1项及省部级科研项目多项,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 Selected Topics in Quantum Electron.等国内外重要学术刊物上发表论文40余篇。申请国家发明专利14项,已经授权11项,转化1项。


科研项目

1355-I型激光器研发,研发费用:400万项目

2、国家重点研发计划2017YFB0405203,大能量及高功率低噪声单频激光器关键技术研究,2017/07-2020/12393万元,在研,子课题承担单位负责人

3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,2016/07-2021/6754万元,在研,参加(项目骨干)

4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,2015/01-2017/1225万元,已结题,主持

5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,2014/01-2016/123万元,已结题,主持

6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,2013/07-2015/062万元,已结题,主持

7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,2013/01-2016/12290万元,已结题,参加

8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,2011/10-2014/09290万元,已结题,参加


代表性论文:

2019:

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

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

3、Minzhi Xu, Yongrui Guo, Jing Su, 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 (2019).

2018:

1、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).

2、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).

3、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).

2017:

1、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).

2、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).

3、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).

4、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).

5、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).

6、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).

7、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).

2016:

1、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 TGG crystal,” Opt. Lett.,  41(9), 2033-2036 (2016).

2、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).

3、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).

4、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).

5、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)

2015:

1、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).

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

3、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).

4、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).

5、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).

2014:

1、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).

2、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).

3、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).

2013:

1、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).

2、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).

2011:

1、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).

2、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).

2010:

1、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).

2、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、Huadong Lu, Pixian Jin, Jing Su, Kunchi Peng, Method for expanding tuning range of all-solid-state continuous-wave single frequency laser,  United States Patent: US10326250B2,  Date of Patent:Jun. 18, 2019.

2、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

3、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:2019.01.18

4、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:2019.01.15

5、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

6、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

7、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

8、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

9、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

10、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

11、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

12、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,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

2、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


专利转化情况:

1、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

2、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

3、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:2019.01.18

4、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:2019.01.15

5、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

6、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

7、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

8、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

9、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

10、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

11、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

12、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


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30W,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120nm,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





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