主要从事中红外低维结构材料与器件研究，包括：量子级联激光材料设计及制备，量子点级联激光器，差频太赫兹量子级联激光器，中红外光频梳，短波锑化物激光器，长波甚长波量子级联激光器，红外光子集成等。

   

0805Z2-半导体材料与器件

红外半导体激光材料与器件
红外光子集成

2008-09--2013-06   中国科学院大学   博士
2004-09--2008-06   北京科技大学   学士

博士研究生

工学博士

   

2020-09~现在, 中国科学院半导体研究所, 副研究员
2013-07~2020-08,中国科学院半导体研究所, 助理研究员

   

[1] 刘俊岐, 鹿希雨, 杨科, 刘峰奇, 张锦川, 翟慎强, 卓宁, 刘舒曼, 王利军. 电吸收调制量子级联激光器集成芯片及制备方法. 202211293161.5, 2022-10-21.
[2] 孙瑞轩, 宁超, 刘舒曼, 张锦川, 卓宁, 王利军, 刘俊岐, 翟慎强, 刘峰奇. 量子级联激光器有源区单元、有源区、外延结构及芯片. CN 115224587 A, 2022-10-21.
[3] 宁超, 孙瑞轩, 刘舒曼, 张锦川, 王利军, 刘俊岐, 卓宁, 翟慎强, 刘峰奇. 带间级联激光器外延结构、激光器、芯片及制备方法. CN 114825038 A, 2022-07-29.
[4] 程凤敏, 张锦川, 卓宁, 翟慎强, 王利军, 刘俊岐, 刘舒曼, 刘峰奇. 波长6微米的激光器的有源区和激光器. CN: CN114006267A, 2022-02-01.
[5] 马钰, 李媛媛, 李伟江, 梁平, 胡颖, 刘俊岐, 王利军, 张锦川, 刘舒曼, 卓宁, 翟慎强, 刘峰奇. 掩埋异质结器件及其制备方法. CN: CN113991419A, 2022-01-28.
[6] 郭强强, 张锦川, 刘峰奇, 刘俊岐, 卓宁, 翟慎强. 连续激射的微腔量子级联激光器及制备方法. CN: CN113675723A, 2021-11-19.
[7] 李媛媛, 刘俊岐, 刘峰奇, 骆军委, 翟慎强, 张锦川, 卓宁, 王利军, 刘舒曼, 梁平, 胡颖. 光反馈结构及其封装方法. CN: CN113381289A, 2021-09-10.
[8] 黎昆, 刘舒曼, 朱怡璇, 刘俊岐, 翟慎强, 王利军, 张锦川, 卓宁, 刘峰奇, 王占国. 应变补偿型量子级联探测器. CN: CN110993709B, 2021-08-20.
[9] 朱怡璇, 刘俊岐, 翟慎强, 梁平, 黎昆, 刘舒曼, 胡颖, 王利军, 张锦川, 卓宁, 刘峰奇. 微腔耦合的双色量子级联红外探测器及其制备方法. CN: CN113241383A, 2021-08-10.
[10] 杨科, 刘俊岐, 刘峰奇, 梁平, 胡颖, 张锦川, 翟慎强, 卓宁, 王利军, 刘舒曼. 一种量子级联激光器芯片及其制备方法. CN: CN113097861A, 2021-07-09.
[11] 赵方圆, 李利安, 刘俊岐, 刘峰奇, 张锦川, 翟慎强, 卓宁, 王利军, 刘舒曼. 改善大功率太赫兹半导体激光器散热的封装结构. CN: CN112636177A, 2021-04-09.
[12] 郭强强, 张锦川, 程凤敏, 刘峰奇, 刘俊岐, 卓宁, 王利军, 刘舒曼, 王占国. 单片集成多波长量子级联激光器阵列结构及其制作方法. CN: CN112072471A, 2020-12-11.
[13] 王欢, 张锦川, 程凤敏, 刘峰奇, 翟慎强, 卓宁, 王利军, 刘俊岐, 刘舒曼. 中红外量子级联激光器以及差频太赫兹外腔反馈光路结构. CN: CN112072457A, 2020-12-11.
[14] 赵方圆, 刘俊岐, 刘峰奇, 张锦川, 翟慎强, 卓宁, 王利军, 刘舒曼, 王占国. 太赫兹半导体激光器、其制备方法及应用. CN: CN110635353A, 2019-12-31.
[15] 于天, 刘舒曼, 宁超, 徐波, 刘峰奇, 陈涌海, 王利军, 刘俊岐, 张锦川, 卓宁, 翟慎强, 王占国. 一种锑化物量子点超晶格结构及其生长方法. CN: CN109950303A, 2019-06-28.
[16] 王东博, 卓宁, 张锦川, 刘峰奇, 王占国. 一种InP基量子点材料结构及扩展其发光波长的方法. CN: CN109671823A, 2019-04-23.
[17] 王东博, 卓宁, 张锦川, 刘峰奇, 王占国. InAsSb量子点发光材料的制备方法. CN: CN109616558A, 2019-04-12.
[18] 程凤敏, 张锦川, 王东博, 赵越, 刘峰奇, 卓宁, 王利军, 刘俊岐, 刘舒曼, 王占国. 垂直腔面发射量子级联激光器. CN: CN109412018A, 2019-03-01.
[19] 李媛媛, 梁平, 胡颖, 刘俊岐, 翟慎强, 张锦川, 卓宁, 王利军, 刘舒曼, 刘峰奇, 王占国. 一种太赫兹量子级联激光器双面金属键合的方法. CN: CN108631149A, 2018-10-09.
[20] 程凤敏, 张锦川, 刘峰奇, 卓宁, 王利军, 刘俊岐, 刘舒曼, 王占国. 差频太赫兹量子级联激光器. CN: CN108365518A, 2018-08-03.
[21] 刘俊岐, 王涛, 李媛媛, 刘峰奇, 王利军, 张锦川, 翟慎强, 刘舒曼, 卓宁, 王占国. 一种太赫兹半导体激光器及其制造方法. CN: CN105655866A, 2016-06-08.
[22] 闫方亮, 张锦川, 刘峰奇, 卓宁, 刘俊岐, 王利军, 王占国. 一种双面散热量子级联激光器器件结构. CN: CN104362507A, 2015-02-18.
[23] 闫方亮, 张锦川, 姚丹阳, 卓宁, 王利军, 刘峰奇, 王占国. 一种可调谐衬底发射量子级联激光器阵列器件. CN: CN103715607A, 2014-04-09.
[24] 张锦川, 刘峰奇, 卓宁, 王利军, 刘俊岐, 王占国. 光栅分布反馈量子级联激光器. CN: CN103368071A, 2013-10-23.
[25] 刘峰奇, 卓宁, 李路, 邵烨, 刘俊岐, 张锦川, 王利军, 王占国. 量子点级联激光器. CN: CN102611003A, 2012-07-25.

   

[1] Yanjiao Guan, Xiyu Lu, Fengmin Cheng, Junqi Liu, Lijun Wang, Ning Zhuo, Jinchuan Zhang, Shenqiang Zhai, Shuman Liu, Fengqi Liu. Continuous-wave distributed Bragg reflector quantum cascade lasers with fine single-mode tuning up to 102°C at formula omittedm. OPTICS COMMUNICATIONS. 2023, 528: http://dx.doi.org/10.1016/j.optcom.2022.128994.
[2] Yin, Ran, Zhang, JinChuan, Guo, QiangQiang, Zhuo, Ning, Zhai, ShenQiang, Jia, Zhiwei, Liu, JunQi, Wang, LiJun, Liu, ShuMan, Lu, QuanYong, Liu, FengQi, Wang, ZhanGuo. Catastrophic failure of the back facet in watt-level power long wavelength infrared quantum cascade laser. JOURNAL OF PHYSICS D-APPLIED PHYSICS[J]. 2022, 55(36): http://dx.doi.org/10.1088/1361-6463/ac77ca.
[3] Sun, Yongqiang, Yang, Ke, Liu, Junhong, Zhang, Jinchuan, Zhuo, Ning, Liu, Junqi, Liu, Shuman, Wang, Lijun, Liu, Fengqi, Zhai, Shenqiang. High sensitivity and fast detection system for sensing of explosives and hazardous materials. SENSORS AND ACTUATORS B-CHEMICAL[J]. 2022, 360: http://dx.doi.org/10.1016/j.snb.2022.131640.
[4] 宁超, 孙瑞轩, 于天, 刘舒曼, 张锦川, 卓宁, 王利军, 刘俊岐, 翟慎强, 李远, 刘峰奇. 带间级联激光器电子注入区优化研究（特邀）. 光子学报[J]. 2022, 51(2): 90-96, [5] WEIJIANG LI, YU MA, YUNFEI XU, JUNQI LIU, LIJUN WANG, NING ZHUO, QUANYONG LU, JINCHUAN ZHANG, SHENQIANG ZHAI, SHUMAN LIU, FENGQI LIU. Continuous-wave single-mode quantum cascade laser at 5.1 THz based on graded sampled grating design. Photonics Research[J]. 2022, 10(12): 2686-2692, [6] Guo, Kai, Zhu, YiXuan, Li, Kun, Liu, JunQi, Zhai, ShenQiang, Liu, ShuMan, Zhuo, Ning, Zhang, JinChuan, Wang, LiJun, Liu, FengQi, Wang, XiaoHua, Wei, ZhiPeng. Very long wave infrared quantum cascade detector with a twin-well absorption region. APPLIED PHYSICS LETTERS[J]. 2022, 121(6): 061101-1, [7] QIANGQIANG GUO, JINCHUAN ZHANG, RAN YIN, NING ZHUO, QUANYONG LU, SHENQIANG ZHAI, JUNQI LIU, LIJUN WANG, LIJUN WANG, SHUMAN LIU, FENGQI LIU. Continuous-wave microcavity quantum cascade lasers in whispering-gallery modes up to 50 °C. Optics Express[J]. 2022, 30(13): 22671-22678, [8] Yunfei Xu, Yongqiang Sun, Weijiang Li, Yu Ma, Ning Zhuo, Junqi Liu, Jinchuan Zhang, Shenqiang Zhai, Shuman Liu, Lijun Wang, Fengqi Liu. Phase-locked terahertz quantum cascade laser array integrated with a Talbot cavity. Optics Express[J]. 2022, 30(20): 36783-36790, [9] JUN-HONG LIU, HUAN WANG, JIN-CHUAN ZHANG, NING ZHUO, SHEN-QIANG ZHAI, JUN-QI LIU, LI-JUN WANG, YUAN LI, SHU-MAN LIU, FENG-QI LIU. Broad tuning range, high power quantum cascade laser at λ ∼ 7.4 µm. Optics Express[J]. 2022, 30(22): 40704-40711, [10] FENGMIN CHENG,, JINCHUAN ZHANG, YONGQIANG SUN, NING ZHUO, SHENQIANG ZHAI, JUNQI LIU, LIJUN WANG, SHUMAN LIU, FENGQI LIU. High performance distributed feedback quantum cascade laser emitting at λ∼6.12um. Optics Express[J]. 2022, 30(4): 5848-5854, [11] QIANGQIANG GUO, JINCHUAN ZHANG, KE YANG, YIXUAN ZHU, QUANYONG LU, NING ZHUO, SHENQIANG ZHAI, JUNQI LIU,, LIJUN WANG, SHUMAN LIU, FENGQI LIU. Monolithically integrated mid-infrared sensor with a millimeter-scale sensing range. Optics Express[J]. 2022, 30(22): 40657-40665, [12] Sun, Yongqiang, Yang, Ke, Liu, Junhong, Zhang, Jinchuan, Zhuo, Ning, Liu, Junqi, Liu, Shuman, Wang, Lijun, Liu, Fengqi, Zhai, Shenqiang. High sensitivity and fast detection system for sensing of explosives and hazardous materials. SENSORS AND ACTUATORS B-CHEMICAL[J]. 2022, 360: http://dx.doi.org/10.1016/j.snb.2022.131640.
[13] Ye, Fan, Cheng, Fengmin, Jia, Zhiwei, Zhang, JinChuan, Zhuo, Ning, Liu, Fengqi, Shi, Yi. Stable single-mode 20-channel uniform buried grating DFB QCL array emitting at similar to 8.3 mu m. OPTICAL AND QUANTUM ELECTRONICS[J]. 2022, 54(4): http://dx.doi.org/10.1007/s11082-022-03644-5.
[14] Li, Weijiang, Ma, Yu, Li, Yuanyuan, Liu, Junqi, Zhuo, Ning, Zhang, Jinchuan, Zhai, Shenqiang, Wang, Lijun, Liu, Shuman, Liu, Fengqi. High-Power Terahertz Quantum Cascade Lasers Based on High-Al-Composition Four Quantum Wells. IEEE PHOTONICS TECHNOLOGY LETTERS[J]. 2022, 34(13): 671-674, http://dx.doi.org/10.1109/LPT.2022.3181242.
[15] CHAO NING, RUI-XUAN SUN, SHU-MAN LIU, JIN-CHUAN ZHANG, NING ZHUO, JUN-QI LIU, LI-JUN WANG, SHEN-QIANG ZHAI, FENG-QI LIU. GaSb surface grating distributed feedback interband cascade laser emitting at 3.25 µm. Optics Express[J]. 2022, 30(16): 29007-29014, [16] Weijiang Li, Yuanyuan Li, Yu Ma, Yunfei Xu, Junqi Liu, Ning Zhuo, Quanyong Lu, Lijun Wang, Jinchuan Zhang, Shenqiang Zhai, Shuman Liu, Fengqi Liu. Continuous-wave terahertz quantum cascade laser based on a hybrid bound to bound quantum design. Frontiers in Photonics[J]. 2022, 3: 1071879-, [17] Yang, Ke, Liu, Junqi, Zhai, Shenqiang, Zhang, Jinchuan, Zhuo, Ning, Wang, Lijun, Liu, Shuman, Liu, Fengqi. Room-temperature quantum cascade laser packaged module at similar to 8 mu m designed for high-frequency response. ELECTRONICS LETTERS[J]. 2021, 57(17): 665-667, http://dx.doi.org/10.1049/ell2.12214.
[18] Sun, YongQiang, Zhang, JinChuan, Cheng, FengMin, Ning, Chao, Zhuo, Ning, Zhai, ShenQiang, Liu, FengQi, Liu, JunQi, Liu, ShuMan, Wang, ZhanGuo. Beam steering characteristics in high-power quantum-cascade lasers emitting at similar to 4.6 mu m*. CHINESE PHYSICS B[J]. 2021, 30(3): http://dx.doi.org/10.1088/1674-1056/abd6fe.
[19] Zhou, Yuhong, Liu, Junqi, Zhai, Shenqiang, Zhuo, Ning, Zhang, Jinchuan, Liu, Shuman, Wang, Lijun, Liu, Fengqi, Wang, Zhanguo. High-speed operation of single-mode tunable quantum cascade laser based on ultra-short resonant cavity. AIPADVANCES[J]. 2021, 11(1): https://doaj.org/article/07977241c1bd4ce7929cbdc9d51033db.
[20] Li, YuanYuan, Zhao, FangYuan, Ma, Yu, Li, WeiJiang, Liu, JunQi, Liu, FengQi, Luo, JunWei, Zhang, JinChuan, Zhai, ShenQiang, Zhuo, Ning, Wang, LiJun, Liu, ShuMan. Terahertz quantum cascade laser array with spatially-separated beams. OPTICS AND LASER TECHNOLOGY[J]. 2021, 143: http://dx.doi.org/10.1016/j.optlastec.2021.107346.
[21] 刘舒曼, 刘俊岐, 翟慎强, 卓宁, 张锦川, 王利军, 李远, 刘峰奇. 具有新型有源区的量子级联探测器（特邀）. 光子学报[J]. 2021, 50(10): 233-243, [22] Li, Kun, Ren, Fei, Liu, ShuMan, Liu, JunQi, Zhuo, Ning, Zhu, YiXuan, Zhai, ShenQiang, Zhang, JinChuan, Wang, LiJun, Li, Yuan, Liu, FengQi. High responsivity quantum cascade detectors with bound-to-miniband diagonal transition. APPLIED PHYSICS LETTERS[J]. 2021, 119(5): [23] 刘峰奇, 张锦川, 刘俊岐, 卓宁, 王利军, 刘舒曼, 翟慎强, 梁平, 胡颖, 王占国. 量子级联激光器研究进展. 中国激光[J]. 2020, 47(7): 71-83, http://lib.cqvip.com/Qikan/Article/Detail?id=7102611257.
[24] Sun Jialin, Hou Chuncai, Chen Hongmei, Zhang Jinchuan, Zhuo Ning, Ning Jiqiang, Zheng Changcheng, Wang Zhanguo, Liu Fengqi, Zhang Ziyang. power and compact structure. JOURNAL OF SEMICONDUCTORS[J]. 2020, 41(1): http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=6663053&detailType=1.
[25] Shouzhu Niu, Junqi Liu, Jinchuan Zhang, Ning Zhuo, Shenqiang Zhai, Xiaohua Wang, Zhipeng Wei. Single-Mode Fabry-Pérot Quantum Cascade Lasers at λ ~10.5 μm. 材料科学与化学工程(英文)[J]. 2020, 8(6): 31-37, http://lib.cqvip.com/Qikan/Article/Detail?id=HS728842020006003.
[26] Ning Zhuo, Fengqi Liu, Zhanguo Wang. Quantum cascade lasers:from sketch to mainstream in the mid and far infrared. 半导体学报:英文版[J]. 2020, 41(1): 2-7, http://lib.cqvip.com/Qikan/Article/Detail?id=7100725440.
[27] Guan, YanJiao, Jia, XueFeng, Li, SenSen, Wang, LiJun, Zhuo, Ning, Zhang, JinChuan, Zhai, ShenQiang, Liu, JunQi, Liu, ShuMan, Liu, FengQi, Wang, ZhanGuo. High Power Tapered Sampling Grating Distributed Feedback Quantum Cascade Lasers. IEEE PHOTONICS TECHNOLOGY LETTERS[J]. 2020, 32(6): 305-308, https://www.webofscience.com/wos/woscc/full-record/WOS:000526544500002.
[28] Jialin Sun, Chuncai Hou, Hongmei Chen, Jinchuan Zhang, Ning Zhuo, Jiqiang Ning, Changcheng Zheng, Zhanguo Wang, Fengqi Liu, Ziyang Zhang. Quantum cascade superluminescent light emitters with high power and compact structure. 半导体学报:英文版[J]. 2020, 41(1): 78-82, http://lib.cqvip.com/Qikan/Article/Detail?id=7100725448.
[29] Wang, Huan, Zhang, Jinchuan, Cheng, Fengmin, Zhuo, Ning, Zhai, Shenqiang, Liu, Junqi, Wang, Lijun, Liu, Shuman, Liu, Fengqi, Wang, Zhanguo. Watt-level, high wall plug efficiency, continuous-wave room temperature quantum cascade laser emitting at 7.7 mu m. OPTICS EXPRESS[J]. 2020, 28(26): 40155-40163, http://dx.doi.org/10.1364/OE.412943.
[30] Cheng, Fengmin, Zhang, Jinchuan, Guan, Yanjiao, Yang, Pengchang, Zhuo, Ning, Zhai, Shenqiang, Liu, Junqi, Wang, Lijun, Liu, Shuman, Liu, Fengqi, Wang, Zhanguo. Ultralow power consumption of a quantum cascade laser operating in continuous-wave mode at room temperature. OPTICS EXPRESS[J]. 2020, 28(24): 36497-36504, http://dx.doi.org/10.1364/OE.405528.
[31] FengMin Cheng, JinChuan Zhang, DongBo Wang, Zenghui Gu, Ning Zhuo, ShenQiang Zhai, LiJun Wang, JunQi Liu, ShuMan Liu, FengQi Liu, ZhanGuo Wang. Demonstration of High-Power and Stable Single-Mode in a Quantum Cascade Laser Using Buried Sampled Grating. NANOSCALE RESEARCH LETTERS[J]. 2019, 14(1): 1-8, https://doaj.org/article/c88e519e44754a86afaf92c9aef07ded.
[32] Zhang, Jinchuan, Wang, Dongbo, Gu, Zenghui, Zhao, Yue, Zhuo, Ning, Liu, Junqi, Liu, Fengqi, IEEE. High performance continuous-wave InP-based 2.1 mu m superluminescent diode with InGaAsSb quantum well. 2019 44TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIMETER, AND TERAHERTZ WAVES (IRMMW-THZ)null. 2019, [33] Zhao, Fangyuan, Li, Yuanyuan, Liu, Junqi, Liu, Fengqi, Zhang, Jinchuan, Zhai, Shenqiang, Zhuo, Ning, Wang, Lijun, Liu, Shuman, Wang, Zhanguo. Sampled grating terahertz quantum cascade lasers. APPLIED PHYSICS LETTERS[J]. 2019, 114(14): [34] Niu, Shouzhu, Liu, Junqi, Cheng, Fengmin, Wang, Huan, Zhang, Jinchuan, Zhuo, Ning, Zhai, Shenqiang, Wang, Lijun, Liu, Shuman, Liu, Fengqi, Wang, Zhanguo, Wang, Xiaohua, Wei, Zhipeng. 14 mu m quantum cascade lasers based on diagonal transition and nonresonant extraction. PHOTONICS RESEARCH[J]. 2019, 7(11): 1244-1248, https://www.webofscience.com/wos/woscc/full-record/WOS:000493999100010.
[35] FengMin Cheng, JinChuan Zhang, Zenghui Gu, DongBo Wang, Ning Zhuo, ShenQiang Zhai, LiJun Wang, JunQi Liu, ShuMan Liu, FengQi Liu, ZhanGuo Wang. Anomalous Mode Transitions in High Power Distributed Bragg Reflector Quantum Cascade Lasers. NANOSCALE RESEARCH LETTERS[J]. 2019, 14(1): 1-6, https://doaj.org/article/c38870aac48f4a7f93b3c24c147c1b40.
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（ 1 ） 中长波激光技术研究, 主持, 国家级, 2020-12--2023-12
（ 2 ） 2-3μm InP基锑化物激光器的研究, 主持, 国家级, 2018-01--2021-12