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中波红外激光技术最新进展

谭改娟 谢冀江 张来明 郭劲 杨贵龙 邵春雷 陈飞 杨欣欣 阮鹏

谭改娟, 谢冀江, 张来明, 郭劲, 杨贵龙, 邵春雷, 陈飞, 杨欣欣, 阮鹏. 中波红外激光技术最新进展[J]. 中国光学, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
引用本文: 谭改娟, 谢冀江, 张来明, 郭劲, 杨贵龙, 邵春雷, 陈飞, 杨欣欣, 阮鹏. 中波红外激光技术最新进展[J]. 中国光学, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
TAN Gai-juan, XIE Ji-jiang, ZHANG Lai-ming, GUO Jin, YANG Gui-long, SHAO Chun-lei, CHEN Fei, YANG Xin-xin, RUAN Peng. Recent progress in mid-infrared laser technology[J]. Chinese Optics, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
Citation: TAN Gai-juan, XIE Ji-jiang, ZHANG Lai-ming, GUO Jin, YANG Gui-long, SHAO Chun-lei, CHEN Fei, YANG Xin-xin, RUAN Peng. Recent progress in mid-infrared laser technology[J]. Chinese Optics, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501

中波红外激光技术最新进展

doi: 10.3788/CO.20130604.0501
基金项目: 

科技部国际合作专项基金资助项目(No.2011DFR10320);长春市科技局开发项目(No.11DJ02)

详细信息
    作者简介:

    谭改娟(1985-),女,河北邯郸人,硕士研究生,2011年于武汉理工大学获得学士学位,主要从事激光技术及其应用的研究。E-mail:tangaijuan-1030@163.com;谢冀江(1959-),男,江苏镇江人,学士,研究员,硕士生导师,1983年于哈尔滨科学技术大学获得学士学位,主要从事激光器及其应用技术方面的研究。E-mail:laserxjj@163.com

    谭改娟(1985-),女,河北邯郸人,硕士研究生,2011年于武汉理工大学获得学士学位,主要从事激光技术及其应用的研究。E-mail:tangaijuan-1030@163.com;谢冀江(1959-),男,江苏镇江人,学士,研究员,硕士生导师,1983年于哈尔滨科学技术大学获得学士学位,主要从事激光器及其应用技术方面的研究。E-mail:laserxjj@163.com

    通讯作者: 谢冀江
  • 中图分类号: TN248

Recent progress in mid-infrared laser technology

  • 摘要: 3~5 m中红外波段激光源是近年来备受国内外关注的研究热点,本文综合评述了产生中红外波段激光的5种主要方法(CO2激光倍频技术、泛频CO激光技术、光学参量振荡器、氟化氘激光器、Fe2+: ZnSe固体激光技术)的国内外发展现状,总结分析了各种方法的关键技术和存在的问题,指出了该技术的未来发展趋势。
  • [1] 林洪沂,郭劲,檀慧明,等. 泛频CO激光器研究进展[J]. 激光与红外,2009,39(4):358-362. LIN H Y,GUO J,TAN H M,et al.. Research and progress of first overtone CO laser[J]. Laser Infrared,2009,39(4):358-362.(in Chinese) [2] 郭汝海,施龙,王思雯,等. HF/DF化学激光器的研究进展[J]. 光机电信息,2010,27(3):30-35. GUO R H,SHI L,WANG S W,et al.. Development review of HF/DF chemical lasers[J]. OME Information,2010,27(3):30-35.(in Chinese) [3] 王宇虹,任德明,胡孝勇,等. TEA CO2 激光器倍频研究的进展[J]. 激光与光电子学进展,2002,39(4):26-29. WANG Y H,REN D M,HU X Y,et al.. Research progress on frequency doubling of TEA CO2 lasers[J]. Laser Optoelectronics Progress,2002,39(4):26-29.(in Chinese) [4] QU Y,KANG Z H,WANG T J,et al.. The detection of carbon monoxide by the second harmonic generation of CO2 laser[J]. Laser Physics Lett.,2007,4(3):238-241. [5] 阮鹏,谢冀江. 中红外光参量振荡器的最新进展[J].激光杂志,2010,31(4):1-3. RUAN P,XIE J J. The latest progress of mid-infrared optical parametric oscillator[J]. Laser J.,2010,31(4):1-3.(in Chinese) [6] KU SH A,CHU W CH,LUO CH W,et al.. Optical properties and application of GaSe: AgGaSe2 crystal[J]. Chinese Optics,2012,5(1):57-63. [7] TARASENKO V F,SITNIKOV A G,PANCHENKO A N,et al.. Single-pulse CO2 laser frequency doubler based on GaSe and GaSe0.7S0.3 single crystals[J]. Chinese Optics,2011,4(4):397-403. [8] 王晓铭,郭劲,郭汝海,等. 大功率TEA CO2非稳腔激光器的远场传输特性[J]. 中国光学,2012,5(6):671-676. WANG X M,GUO J,GUO R H,et al.. Far-field transmittance characteristics of high-power unstable resonator TEA CO2 laser[J]. Chinese Optics,2012,5(6):671-676. (in Chinese) [9] 张兴亮,郭立红,张传胜,等. CO2激光器高压脉冲触发系统的设计[J]. 中国光学,2012,5(4):416-422. ZHANG X L,GUO L H,ZHANG CH SH,et al.. Design of high-voltage pulse trigger system for CO2 laser[J]. Chinese Optics,2012,5(4):416-422. (in Chinese) [10] SCHUNEMANN P G,SETZLER S D,POLLAK T M. Phase-matched crystal growth of AgGaSe2 and AgGa1-xInxSe2[J]. J. Crystal Growth,2000,211:257-264. [11] 任德明,张莉莉,曲彦辰,等. 等离子体开关在TEA CO2激光倍频中的应用[J]. 中国激光,2004,31(9):1061-1064. REN D M,ZHANG L L,QU Y CH,et al.. Application of plasma shutter in second harmonic generation of TEA CO2 laser[J]. Chinese J. Lasers,2004,31(9):1061-1064.(in Chinese) [12] 吴海信,张维,陶德节,等. 连续波可调谐CO2激光在AgGaSe2中倍频研究[J]. 量子电子学报,2004,21(4):440-443. WU H X,ZHANG W,TAO D J,et al.. Second harmonic generation in AgGaSe2 with tunable CW CO2 lasers[J]. Chinese J. Quantum Electronics,2004,21(4):440-443.(in Chinese) [13] DAS S,GHOSH C,VOEVODINA O G,et al.. Modified GaSe crystal as a parametric frequency converter[J]. Appl. Physics B,2006,82:43-46. [14] 李殿军,杨贵龙,谢冀江,等. 9.3 μm脉冲CO2激光倍频实验[J]. 光学 精密工程,2009,17(11):2684-2691. LI D J,YANG G L,XIE J J,et al.. Experiments of second harmonic generation of 9.3 μm pulsed CO2 lasers[J]. Opt. Precision Eng.,2009,17(11):2684-2691.(in Chinese) [15] GONZALEZ L P,UPCHURCH D C,SCHUNEMANN P G,et al.. Continuous-wave second harmonic generation of a tunable CO2 laser in orientation-patterned GaAs [C]//Conference on laser and Electro-optics(CLEO),May 1-6,2011,Baltimore,MD,2011.. [16] LI D J,GUO J,YANG G L,et al.. High power 4.65 μm single-wavelength laser by second-harmonic generation of pulsed TEA CO2 laser in AgGaSe2 and ZnGeP2[J]. Laser Physics,2012,22(4):725-729. [17] IONIN A A,KURNOSOV A K,NAPARTOVICH A P,et al.. Lasers on overtone transitions of carbon monoxide molecule[J]. Laser Physics,2010,20(1):144-186. [18] ZHANG L M,XIE J J,GUO J,et al.. CO laser frequency mixing in nonlinear crystals ZnGeP2 and GaSe[J]. Opt. Precision Eng.,2012,20(2):277-286. [19] 于清旭,李少成,韩瑞萍. 低温流动式可调谐连续波泛频CO激光器的研究[J]. 大连理工学报,1999,39(4):588-590. YU Q X,LI SH CH,HAN R P. Investigation of LN2 cooled CW CO-overtone laser[J]. J. Dalian University Technology,1999,39(4):588-590.(in Chinese) [20] 林钧岫,王晓旭,于清旭. 低温3.0~4.2 μm波段第一泛频一氧化碳激光器[J]. 大连理工学报,2009,49(4):617-624. LIN J Y,WANG X X,YU Q X. 3.0~4.2 μm low temperature cooled first overtone CO-laser[J]. J. Dalian University Technology,2009,49(4): 617-624.(in Chinese) [21] YURII G U,MATTHEW G,IGOR V A,et al.. Compact overtone band carbon monoxide laser[J]. Opt. Commun.,2006,263:105-110. [22] IONIN A A,KOZLOV A Y,SELEZNEV L V,et al.. RF discharge slab CO laser operating in both fundamental and first-overtone bands[J]. Opt. Commun.,2009,282:629-634. [23] IONIN A A,KOZLOV A Y,SELEZNEV L V,et al.. Slab RF discharge overtone CO laser[J]. SPIE,2011,7994:79941N. [24] 孙文佳. 内腔光参量振荡器及新波长固体激光器的研究 [D].济南:山东大学,2011年. SUN W J. Research on intracavity optical parametric oscillator and solid-state lasers at new wavelengths. Ji'nan:Shandong University,2011.(in Chinese) [25] EICHHORN M,HIRTH A. Electro-optically Q-switched Tm: YAG laser pumped ZGP optical-parametric oscillator [C]//Conference on laser and Electro-Optics,May 4-9,2008,San Jose,CA,2008. [26] 彭跃峰,鲁燕华,谢刚,等. 准相位匹配PPMgLN光参量振荡技术[J]. 中国激光,2008,35(5):670-674. PENG Y F,LU Y H,XIE G,et al.. Investigation of quasi-phase-matched optical parametric oscillator based on PPMgLN[J]. Chinese J. Lasers,2008,35(5):670-674. [27] XIA L ZH,SU H,RUAN SH CH. Widely continuous-tunable 2.789~4.957 μm twin-MgO:PPLN cascaded optical parametric oscillator[J]. Chinese Optics Letter,2009,7(11):1038-1040. [28] 熊波,马建立,林学春,等. 1.35 W, 3.85~3.95 μm连续调谐周期极化掺镁铌酸锂光参量振荡器[J]. 中国激光,2009,36:7-10. XIONG B,MA J L,LIN X CH,et al.. Continuous tuning of a 3.85~3.95 μm, 1.35 W optical parametric oscillator based on PPMgLN[J]. Chinese J. Lasers,2009,36:7-10.(in Chinese) [29] KOKABEE O,ESTEBAN-MARTIN A,EBRAHIM-ZADEH M. Efficient, high-power, ytterbium-fiber laser pumped picosecond optical parametric oscillator[J]. Optics Lett.,2010,35(19):3210-3212. [30] 贾宝申. 基于化学计量比钽酸锂中红外光参量振荡器研究 [D].哈尔滨:哈尔滨工业大学,2010. JIA B SH. Research on the mid-infrared optical parametric oscillator based on stoichiometric lithium tantalite [D]. Harbin: Harbin Institute of Technology,2010. (in Chinese) [31] PENG Y F,WEI X B,WANG W M. Mid-infrared optical parametric oscillator based on ZnGeP2 pumped by 2-μm laser[J]. hinese Optics Lett.,2011,9(6),061403. [32] KIRCHNER M,NIEDRINGHAUS A,DURFEE C,et al.. Ultrafast optical parametric oscillator pumped by an All Normal Dispersion(ANDi) Yb: Fiber oscillator [C]//Conference on Laser and Electro-optics,May 6-11,2012,San Jose,CA,2012. [33] 魏磊,肖磊,韩隆,等. Tm: YAP激光抽运ZGP晶体光参量振荡器[J]. 中国激光,2012,39(7):0702006. WEI L,XIAO L,HAN L,et al.. ZGP optical parametric oscillator pumped by Tm: YAP laser[J]. Chinese J. Lasers,2012,39(7):0702006.(in Chinese) [34] HUANG K,TANG Y,YI A P,et al.. Effect of gas circulation on energy stability of discharge pumped repetitively pulsed HF laser[J]. The 2nd International Symposium on Laser Interaction with Matter,Sept. 9-12,2012,Xi'an,China,2012:158. [35] 易爱平,刘晶儒,唐影,等. 电激励重复频率非链式HF激光器[J]. 光学 精密工程,2011,19(2):360-366. YI A P,LIU J R,TANG Y,et al.. Electrically initiated repetitive-pulsed non-chain HF lasers[J]. Opt. Precision Eng.,2011,19(2):360-366.(in Chinese) [36] 陈家璧.激光原理及应用[M]. 北京:电子工业出版社,2004. CHEN J B. Principle and Application of Lasers[M]. Beijing:Publishing House of electronics Industry,2004.(in Chinese) [37] 袁圣付,华卫红,姜宗福. 采用超音速低温喷管的小型连续波DF化学激光器性能分析[J]. 中国激光,2003,30(4):295-299. YUAN SH F,HUA W H,JIANG Z F. Performance analysis of small continuous wave DF chemical laser with HYLTE nozzle[J]. Chinese J. Lasers,2003,30(4):295-299.(in Chinese) [38] 罗威,袁圣付,陆启生. 小型电激励连续波HF/DF化学激光器研究进展[J]. 激光与红外,2011,41(4):371-375. LUO W,YUAN SH F,LU Q SH. Research development of small scale discharge driven continuous-wave HF/DF chemical laser[J]. Laser & Infrared,2011,41(4):371-375.(in Chinese) [39] 闫宝珠,袁圣付,陆启生,等. 直排型DF/HF化学激光器气流通道模型实验研究[J]. 强激光与粒子束,2008,20(4):563-567. YAN B ZH,YUAN SH F,LU Q SH,et al.. Experimental investigation on small-scale model of gas channel in directly drained CW DF/HF chemical lasers[J]. High Power Laser and Particle Beams,2008,20(4):563-567.(in Chinese) [40] 王红岩, 张煊喆, 李强,等. 氮稀释高效电激励连续波HF/DF化学激光器[J]. 光学 精密工程,2011,19(2):304-309. WANG H Y,ZHANG X ZH,LI Q,et al.. Efficient nitrogen diluted discharge-driven continuous wave HF/DF chemical lasers[J]. Opt. Precision Eng.,2011,19(2):304-309.(in Chinese) [41] APOLLONOV V V,FIRSOV K N,KAZANTSEV S Y,et al.. High-power non-chain HF(DF) lasers initiated by self-sustained volume discharge[J]. SPIE,1998,3574:374-384. [42] APOLLONOV V V,KAZANTSEV S Y,SAIFULIN A V,et al.. Discharge characteristics in a nonchain HF(DF) laser[J]. Quantum Electronics,2000,30(6):483-485. [43] BELEVTSEV A A,FIRSOV K N,KAZANTSEV S Y,et al.. Electron detachment instability and self-organization of gas discharge plasma in working mixtures of chemical non-chain HF(DF) lasers[J]. Chinese Optics,2011,4(1):31-40. [44] APOLLONOV V V,BELEVTSEV A A,FIRSOV K N,et al.. Self-initiated volume discharge in non-chain HF lasers based on SF6-hydrocarbon mixtures[J]. Quantum Electronics,2000,30: 207-214. [45] RUAN P,ZHANG L M,XIE J J,et al.. Key technologies of pulsed non-chain DF lasers[J]. Chinese Optics,2011,4(3):313-318. [46] BRUNET H,MABRU M,VOIGNIER F. High energy-high average power pulsed HF/DF chemical laser[J]. SPIE,1995,2502:388-392. [47] BRUNET H. Improved DF performance of a repetitively pulsed HF/DF laser using a deuterated compound[J]. SPIE,1997,3092:494-497. [48] APOLLONOV V V,KAZANTSEV S Y,ORESHKIN V F,et al.. Nonchain electric-discharge HF(DF) laser with a high radiation energy[J]. Quantum Electronics,1998,28(2):116-118. [49] BORISOV V P,BURTSEV V V,VELIKANOV S D,et al.. Electric-discharge DF laser with a pulsed energy of the order of 10 J[J]. Quantum Electronics,2000,30(3):225-228. [50] APOLLONOV V V,FIRSOV K N,KAZANTSEV S Y,et al.. Scaling up of non-chain HF(DF) laser initiated by self-sustained volume discharge[J]. SPIE,2000,3886:370-381. [51] AKSENOV Y N,BORISOV V P,BURTSEV V V,et al.. A 400-W repetitively pulsed DF laser[J]. Quantum Electronics,2001,31(4):290-292. [52] BUTSYKIN I L,VELIKANOV S D,EVDOKIMOV P A,et al.. Repetitively pulsed DF laser with a pulse repetition rate up to 1200 Hz and an average output power of ~ 25 W[J]. Quantum Electronics,2001,31(11):957-961. [53] PANCHENKO A N,ORLOVSKII V M,TARASENKO V F,et al.. Non-chain HF and DF lasers pumped by electric discharge[J]. SPIE,2005,5777: 313-314. [54] 柯常军,张阔海,孙科,等. 重复频率放电引发的脉冲HF(DF)激光器[J]. 红外与激光工程,2007,36(增):36-38. KE CH J,ZHANG K H,SUN K,et al.. A periodically pulsed HF/DF gas discharge laser[J]. Infrared and Laser Eng.,2007,36(s):36-38.(in Chinese) [55] VELIKANOV S D,EVDOKIMOV P А,ZAPOL'SKY А F,et al.. Pulse periodic HF(DF)-laser of atmospheric pressure with pulse repetition rate up to 2200 Hz[J]. SPIE,2009,7131:71310V. [56] RUAN P,ZHANG L M,TAN G J,et al.. Experimental study on non-chain electric-discharge pulsed DF laser. The 2nd International Symposium on Laser Interaction with Matter,Sept.9-12,2012,Xi'an,China,2012:157. [57] 杨勇,唐玉龙,徐剑秋,等. Cr2+: ZnSe的激光输出和调谐性能[J]. 中国激光,2008,35(10):1495-1499. YANG Y,TANG Y L,XU J Q,et al.. Laser output and tuning ability of Cr2+: ZnSe[J]. Chinese J. Lasers,2008,35(10):1495-1499.(in Chinese) [58] KORANDA P, ULC J,DOROSHENKO M,et al.. Cr: ZnSe laser pumped with Tm: YAP microchip laser[J]. SPIE,2010,7578:757826. [59] KIM C,PEPPERS J M,MARTYSHKIN D V,et al.. Chromium doped ZnSe and ZnS gain media for optically and electrically pumped mid-IR lasers[J]. SPIE,2009,7193:71932R. [60] KORANDA P,JEL NKOV H,NEMEC M,et al.. Laser action in bulk Cr: ZnSe crystals[J]. SPIE,2008,6998:69980R. [61] 张利明,周寿桓,赵鸿,等. Fe2+掺杂中红外固体激光器技术综述[J]. 激光与红外,2012,42(4):360-364. ZHANG L M,ZHOU SH H,ZHAO H,et al.. Introduction of Fe2+ doped mid-infrared solid state laser[J]. Laser & Infrared,2012,42(4):360-364.(in Chinese) [62] KERNAL J,FEDOROV V V,GALLIAN A,et al.. 3.9-4.8 μm gain-switched lasing of Fe: ZnSe at room temperature[J]. Optics Express,2005,13(26):10608-10615. [63] FEDOROV V V,MIROV S B,GALLIAN A,et al.. 3.77~5.05 μm Tunable solid-state lasers based on Fe2+-doped ZnSe crystals operating at low and room temperatures[J]. IEEE J. Quantum Electronics,2006,42(9):907-917. [64] AKIMOV V A,FROLOV M P,KOROSTELIN Y V,et al.. Room temperature operation of a Fe2+: ZnSe laser[J]. SPIE,2007,6610:661009. [65] DOROSHENKO M E,JEL NKOV H,KORANDA P,et al.. Tunable mid-infrared laser properties of Cr2+: ZnMgSe and Fe2+: ZnSe crystals[J]. Laser Phys. Lett.,2010,7(1):38-45. [66] JEL NKOV H,KORANDA P,DOROSHENKO M E,et al.. Room-temperature lasing, gain-switched, bulk, tunable Fe: ZnSe laser[J]. SPIE,2010,7721:772111. [67] MYOUNG N,MIROV M S,FEDOROV V V,et al.. High-energy gain-switched mid-IR lasers based on Cr and Fe doped ZnSe [C]//Conference on Laser and Electro-optics,May 1-6,2011,Baltimore,MD,2011. [68] FEDOROV V V,MARTYSHKIN D V,MIROV M,et al.. High Energy 4.1~4.6 μm Fe: ZnSe laser [C]//Conference on Laser and Electro-optics,May 6-11,2012,San Jose,CA,2012.
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出版历程
  • 收稿日期:  2013-03-11
  • 修回日期:  2013-05-13
  • 刊出日期:  2013-08-10

中波红外激光技术最新进展

doi: 10.3788/CO.20130604.0501
    基金项目:

    科技部国际合作专项基金资助项目(No.2011DFR10320);长春市科技局开发项目(No.11DJ02)

    作者简介:

    谭改娟(1985-),女,河北邯郸人,硕士研究生,2011年于武汉理工大学获得学士学位,主要从事激光技术及其应用的研究。E-mail:tangaijuan-1030@163.com;谢冀江(1959-),男,江苏镇江人,学士,研究员,硕士生导师,1983年于哈尔滨科学技术大学获得学士学位,主要从事激光器及其应用技术方面的研究。E-mail:laserxjj@163.com

    谭改娟(1985-),女,河北邯郸人,硕士研究生,2011年于武汉理工大学获得学士学位,主要从事激光技术及其应用的研究。E-mail:tangaijuan-1030@163.com;谢冀江(1959-),男,江苏镇江人,学士,研究员,硕士生导师,1983年于哈尔滨科学技术大学获得学士学位,主要从事激光器及其应用技术方面的研究。E-mail:laserxjj@163.com

    通讯作者: 谢冀江
  • 中图分类号: TN248

摘要: 3~5 m中红外波段激光源是近年来备受国内外关注的研究热点,本文综合评述了产生中红外波段激光的5种主要方法(CO2激光倍频技术、泛频CO激光技术、光学参量振荡器、氟化氘激光器、Fe2+: ZnSe固体激光技术)的国内外发展现状,总结分析了各种方法的关键技术和存在的问题,指出了该技术的未来发展趋势。

English Abstract

谭改娟, 谢冀江, 张来明, 郭劲, 杨贵龙, 邵春雷, 陈飞, 杨欣欣, 阮鹏. 中波红外激光技术最新进展[J]. 中国光学, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
引用本文: 谭改娟, 谢冀江, 张来明, 郭劲, 杨贵龙, 邵春雷, 陈飞, 杨欣欣, 阮鹏. 中波红外激光技术最新进展[J]. 中国光学, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
TAN Gai-juan, XIE Ji-jiang, ZHANG Lai-ming, GUO Jin, YANG Gui-long, SHAO Chun-lei, CHEN Fei, YANG Xin-xin, RUAN Peng. Recent progress in mid-infrared laser technology[J]. Chinese Optics, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
Citation: TAN Gai-juan, XIE Ji-jiang, ZHANG Lai-ming, GUO Jin, YANG Gui-long, SHAO Chun-lei, CHEN Fei, YANG Xin-xin, RUAN Peng. Recent progress in mid-infrared laser technology[J]. Chinese Optics, 2013, 6(4): 501-512. doi: 10.3788/CO.20130604.0501
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