基本信息
张首刚  男  博导  中国科学院国家授时中心
电子邮件: szhang@ntsc.ac.cn
通信地址: 国家授时中心,陕西省西安市临潼区书院东路3号
邮政编码: 710600

招生信息

   
招生专业
070402-天体测量与天体力学
070208-无线电物理
070203-原子与分子物理
招生方向
量子频标研究
原子钟物理与技术
量子频标

教育背景

   
学历
-- 研究生
学位
-- 博士

专利与奖励

   
专利成果
[1] 董瑞芳, 权润爱, 项晓, 刘涛, 张首刚. 一种可级联的量子时间同步方法. CN: [[[CN111698038A]]], [[["2020-09-22"]]].
[2] 范思晨, 阮军, 刘丹丹, 张首刚. 一种相位稳定的射频开关. CN: CN111564679B, 2021-07-30.
[3] 陈龙, 刘涛, 胡旭文, 韩亮, 张林波, 张首刚. 一种面向空间应用的参考腔腔前耦合光路及调节方法. CN: CN112859326A, 2021-05-28.
[4] 张辉, 阮军, 范思晨, 刘丹丹, 王心亮, 张首刚. 提高光信号稳定度的探测装置. CN: CN210626336U, 2020-05-26.
[5] 张辉, 王心亮, 刘丹丹, 范思晨, 阮军, 张首刚. 提高光信号稳定度的探测装置. CN: CN110411994A, 2019-11-05.
[6] 张辉, 阮军, 白杨, 施俊如, 王心亮, 张首刚. 新型二维磁光阱的光机装置. 中国: CN109884872A, 2019-06-14.
[7] 张辉, 阮军, 白杨, 施俊如, 王心亮, 张首刚. 新型二维磁光阱的光机装置. CN: CN109884872A, 2019-06-14.
[8] 高静, 陈玖朋, 焦东东, 刘杰, 董瑞芳, 刘涛, 张首刚. 基于循环自外差干涉法的精密测量激光线宽装置及方法. CN: CN105699053B, 2019-05-21.
[9] 张辉, 陈江, 王心亮, 余凤翔, 刘丹丹, 白杨, 施俊如, 管勇, 阮军, 张首刚. 用于原子钟准直扩束光斑直径变换装置. CN: CN107065503B, 2019-05-03.

出版信息

   
发表论文
[1] Li Baihong, Xia Zhiguang, Xiang Xiao, Jin Yaqing, Quan Runai, Dong Ruifang, Liu Tao, Zhang Shougang. Experimental Method for Fast Measuring the Phase-matched Wavelengths of Entangled Photons by Wavelength-to-Time Mapping. CHINESE JOURNAL OF LASERS-ZHONGGUO JIGUANG[J]. 2021, 48(3): [2] Jin YaQing, Dong RuiFang, Quan RunAi, Xiang Xiao, Liu Tao, Zhang ShouGang. Temporal filtering characteristics of gated InGaAs/InP single-photon detectors for coincidence measurement. ACTA PHYSICA SINICA[J]. 2021, 70(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000637968800013.
[3] Zang, Qi, Quan, Honglei, Zhao, Kan, Zhang, Xiang, Deng, Xue, Xue, Wenxiang, Chen, Faxi, Liu, Tao, Dong, Ruifang, Zhang, Shougang. High-Precision Time-Frequency Signal Simultaneous Transfer System via a WDM-Based Fiber Link. PHOTONICS[J]. 2021, 8(8): http://dx.doi.org/10.3390/photonics8080325.
[4] 翟艺伟, 董瑞芳, 权润爱, 项晓, 刘涛, 张首刚. 纠缠光子对的级联Hong-Ou-Mandel干涉研究及其在多时延参数测量中的应用. 物理学报[J]. 2021, 70(12): 22-29, [5] 全洪雷, 赵文宇, 薛文祥, 邢燕, 姜海峰, 郭文阁, 张首刚. 基于微波相位补偿的56 km高精度光纤微波频率传递. 光子学报. 2021, 40-46, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2021&filename=GZXB202104005&v=MjQ4NTk4ZVgxTHV4WVM3RGgxVDNxVHJXTTFGckNVUjd1ZlllZG1GeTNtV3J2UElqZlRiTEc0SE5ETXE0OUZZWVI=.
[6] 刘妤婷, 权润爱, 项晓, 洪辉博, 刘涛, 董瑞芳, 张首刚. Quantum clock synchronization over 20-km multiple segmented fibers with frequency-correlated photon pairs and HOM interference. Applied Physics Letters[J]. 2021, 119(14): 144003-, The quantum clock synchronization based on frequency-correlated photon pairs and HOM interference has shown femtosecond-level precision and great application prospect in numerous fields depending on high-precision time-frequency signals. Due to the difficulty of achieving stable HOM interference fringe after long-distance fiber transmission, this scheme of synchronization is hampered from long-haul field application. Utilizing segmented fibers instead of a single long-length fiber, we achieved the stable observation of the two-photon interference of the lab-developed broadband frequency-correlated photon pairs after 20 km-long fiber transmission, without employing the auxiliary phase stabilization method. Referenced to this interference fringe, the balance of the two fiber arms is achieved with a long-term stability of 20 fs. The HOM-interference-based synchronization over a 20-km fiber link is thus demonstrated, and a minimum stability of 74 fs has been reached at 48 000 s. This result not only provides a simple way to stabilize the fiber-optic two-photon interferometer for long-distance quantum communication systems but also makes a great stride forward in extending the quantum-interference-based synchronization scheme to the long-haul field applications..
[7] 靳亚晴, 董瑞芳, 权润爱, 项晓, 刘涛, 张首刚. 门控下InGaAs/InP单光子探测器用于符合测量的时域滤波特性研究. 物理学报. 2021, 70(7): 120-128, http://lib.cqvip.com/Qikan/Article/Detail?id=7104297764.
[8] 李百宏, 夏志广, 项晓, 靳亚晴, 权润爱, 董瑞芳, 刘涛, 张首刚. 基于波长到时间映射快速测量纠缠光子相位匹配波长的实验方法. 中国激光. 2021, 48(3): 148-155, http://lib.cqvip.com/Qikan/Article/Detail?id=7104525422.
[9] Quan Honglei, Zhao Wenyu, Xue Wenxiang, Xing Yan, Jiang Haifeng, Guo Wenge, Zhang Shougang. High-resolution Microwave Frequency Dissemination via 56 km Optical Fiber Based on Microwave Phase Compensation. ACTA PHOTONICA SINICA[J]. 2021, 50(4): [10] Li Baihong, Xia Zhiguang, Xiang Xiao, Jin Yaqing, Quan Runai, Dong Ruifang, Liu Tao, Zhang Shougang. Experimental Method for Fast Measuring the Phase-matched Wavelengths of Entangled Photons by Wavelength-to-Time Mapping. CHINESE JOURNAL OF LASERS-ZHONGGUO JIGUANG[J]. 2021, 48(3): [11] Jin YaQing, Dong RuiFang, Quan RunAi, Xiang Xiao, Liu Tao, Zhang ShouGang. Temporal filtering characteristics of gated InGaAs/InP single-photon detectors for coincidence measurement. ACTA PHYSICA SINICA[J]. 2021, 70(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000637968800013.
[12] Zang, Qi, Quan, Honglei, Zhao, Kan, Zhang, Xiang, Deng, Xue, Xue, Wenxiang, Chen, Faxi, Liu, Tao, Dong, Ruifang, Zhang, Shougang. High-Precision Time-Frequency Signal Simultaneous Transfer System via a WDM-Based Fiber Link. PHOTONICS[J]. 2021, 8(8): http://dx.doi.org/10.3390/photonics8080325.
[13] 翟艺伟, 董瑞芳, 权润爱, 项晓, 刘涛, 张首刚. 纠缠光子对的级联Hong-Ou-Mandel干涉研究及其在多时延参数测量中的应用. 物理学报[J]. 2021, 70(12): 22-29, [14] 全洪雷, 赵文宇, 薛文祥, 邢燕, 姜海峰, 郭文阁, 张首刚. 基于微波相位补偿的56 km高精度光纤微波频率传递. 光子学报. 2021, 40-46, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2021&filename=GZXB202104005&v=MjQ4NTk4ZVgxTHV4WVM3RGgxVDNxVHJXTTFGckNVUjd1ZlllZG1GeTNtV3J2UElqZlRiTEc0SE5ETXE0OUZZWVI=.
[15] 刘妤婷, 权润爱, 项晓, 洪辉博, 刘涛, 董瑞芳, 张首刚. Quantum clock synchronization over 20-km multiple segmented fibers with frequency-correlated photon pairs and HOM interference. Applied Physics Letters[J]. 2021, 119(14): 144003-, The quantum clock synchronization based on frequency-correlated photon pairs and HOM interference has shown femtosecond-level precision and great application prospect in numerous fields depending on high-precision time-frequency signals. Due to the difficulty of achieving stable HOM interference fringe after long-distance fiber transmission, this scheme of synchronization is hampered from long-haul field application. Utilizing segmented fibers instead of a single long-length fiber, we achieved the stable observation of the two-photon interference of the lab-developed broadband frequency-correlated photon pairs after 20 km-long fiber transmission, without employing the auxiliary phase stabilization method. Referenced to this interference fringe, the balance of the two fiber arms is achieved with a long-term stability of 20 fs. The HOM-interference-based synchronization over a 20-km fiber link is thus demonstrated, and a minimum stability of 74 fs has been reached at 48 000 s. This result not only provides a simple way to stabilize the fiber-optic two-photon interferometer for long-distance quantum communication systems but also makes a great stride forward in extending the quantum-interference-based synchronization scheme to the long-haul field applications..
[16] 靳亚晴, 董瑞芳, 权润爱, 项晓, 刘涛, 张首刚. 门控下InGaAs/InP单光子探测器用于符合测量的时域滤波特性研究. 物理学报. 2021, 70(7): 120-128, http://lib.cqvip.com/Qikan/Article/Detail?id=7104297764.
[17] 李百宏, 夏志广, 项晓, 靳亚晴, 权润爱, 董瑞芳, 刘涛, 张首刚. 基于波长到时间映射快速测量纠缠光子相位匹配波长的实验方法. 中国激光. 2021, 48(3): 148-155, http://lib.cqvip.com/Qikan/Article/Detail?id=7104525422.
[18] Quan Honglei, Zhao Wenyu, Xue Wenxiang, Xing Yan, Jiang Haifeng, Guo Wenge, Zhang Shougang. High-resolution Microwave Frequency Dissemination via 56 km Optical Fiber Based on Microwave Phase Compensation. ACTA PHOTONICA SINICA[J]. 2021, 50(4): [19] Xue, WenXiang, Zhao, WenYu, Quan, HongLei, Zhao, CuiChen, Xing, Yan, Jiang, HaiFeng, Zhang, ShouGang. Microwave frequency transfer over a 112-km urban fiber link based on electronic phase compensation. CHINESE PHYSICS B[J]. 2020, 29(6): 207-211, http://lib.cqvip.com/Qikan/Article/Detail?id=7102153189.
[20] Wang, DongJie, Zhang, Xiang, Liu, Jie, Jiao, DongDong, Deng, Xue, Gao, Jing, Zang, Qi, Wang, Dan, Liu, Tao, Dong, RuiFang, Zhang, ShouGang. Novel Polarization Control Approach to Long-Term Fiber-Optic Frequency Transfer. CHINESE PHYSICS LETTERS[J]. 2020, 37(9): 26-29, http://lib.cqvip.com/Qikan/Article/Detail?id=7103140123.
[21] Quan, Runai, Dong, Ruifang, Xiang, Xiao, Li, Baihong, Liu, Tao, Zhang, Shougang. High-precision nonlocal temporal correlation identification of entangled photon pairs for quantum clock synchronization. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2020, 91(12): http://dx.doi.org/10.1063/5.0031166.
[22] Xiang, Xiao, Dong, Ruifang, Quan, Runai, Jin, Yaqing, Yang, Ye, Li, Ming, Liu, Tao, Zhang, Shougang. Hybrid frequency-time spectrograph for the spectral measurement of the two-photon state. OPTICS LETTERS[J]. 2020, 45(11): 2993-2996, https://www.webofscience.com/wos/woscc/full-record/WOS:000537763300012.
[23] Zhao Cuichen, Zhao Wenyu, Xue Wenxiang, Quan Honglei, Yan Lulu, Guo Wenge, Jiang Haifeng, Zhang Shougang. Microwave Frequency Dissemination via 50 km Optical Fiber Based on Optical Delay Compensation. ACTA PHOTONICA SINICA[J]. 2020, 49(8): [24] Hao, Qiang, Xue, Wenxiang, Li, Wenbing, Xu, Feng, Wang, Xin, Guo, Wenge, Yun, Peter, Zhang, Shougang. Microwave Pulse-Coherent Technique-Based Clock With a Novel Magnetron-Type Cavity. IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL[J]. 2020, 67(4): 873-878, https://www.webofscience.com/wos/woscc/full-record/WOS:000522170700020.
[25] 侯飞雁, 权润爱, 项晓, 靳亚晴, 董瑞芳, 刘涛, 张首刚. 基于实地光纤的双向量子时间传递实验研究. 时间频率学报[J]. 2020, 43(4): 253-261, http://lib.cqvip.com/Qikan/Article/Detail?id=7103635751.
[26] Deng, Xue, Jiao, DongDong, Liu, Jie, Zang, Qi, Zhang, Xiang, Wang, Dan, Gao, Jing, Dong, RuiFang, Liu, Tao, Zhang, ShouGang. Cascaded optical frequency transfer over 500-km fiber link using regenerative amplifier. CHINESE PHYSICS B[J]. 2020, 29(5): 260-264, http://lib.cqvip.com/Qikan/Article/Detail?id=7101995105.
[27] Shou-Gang Zhang. Sub-Hertz frequency stabilization of 1.55 μm laser on Higher order HGmn mode. optics communications. 2020, [28] Ning, Kai, Hou, Lei, Fan, SongTao, Yan, LuLu, Zhang, YanYan, Rao, BingJie, Zhang, XiaoFei, Zhang, ShouGang, Jiang, HaiFeng. An All-Polarization-Maintaining Multi-Branch Optical Frequency Comb for Highly Sensitive Cavity Ring-Down Spectroscopy*. CHINESE PHYSICS LETTERS[J]. 2020, 37(6): 26-30, http://lib.cqvip.com/Qikan/Article/Detail?id=7102224614.
[29] Yang, Ye, Xiang, Xiao, Hou, Feiyan, Quan, Runai, Li, Baihong, Li, Wei, Zhu, Ninghua, Liu, Tao, Zhang, Shougang, Dong, Ruifang, Li, Ming. Inherent resolution limit on nonlocal wavelength-to-time mapping with entangled photon pairs. OPTICS EXPRESS[J]. 2020, 28(5): 7488-7497, https://www.webofscience.com/wos/woscc/full-record/WOS:000518435600126.
[30] Li, Chao, Sun, Fuyu, Liu, Jie, Li, Xiaofeng, Ma, Jie, Guo, Guangkun, Hou, Dong, Zhang, Shougang. Non 0-0 states magnetically insensitive transitions in alkali species. PHYSICA SCRIPTA[J]. 2020, 95(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000525016400002.
[31] 李青林, 云恩学, 鱼少少, 李晓东, 张树宏, 句博文, 王鑫, 郝强, 高玉平, 张首刚. 基于相干极化调制的小型化CPT原子钟进展. 宇航计测技术[J]. 2020, 40(3): 22-26, http://lib.cqvip.com/Qikan/Article/Detail?id=7102797568.
[32] Xiang, Xiao, Dong, Ruifang, Li, Baihong, Hou, Feiyan, Quan, Runai, Liu, Tao, Zhang, Shougang. Quantification of nonlocal dispersion cancellation for finite frequency entanglement. OPTICS EXPRESS[J]. 2020, 28(12): 17697-17707, https://www.webofscience.com/wos/woscc/full-record/WOS:000542820800049.
[33] 赵粹臣, 赵文宇, 薛文祥, 全洪雷, 闫露露, 郭文阁, 姜海峰, 张首刚. 基于光学时延补偿的50km光纤微波频率传递. 光子学报[J]. 2020, 49(8): 33-39, http://lib.cqvip.com/Qikan/Article/Detail?id=7102539963.
[34] Wang, YaJun, Wen, Lin, Chen, GuangPing, Zhang, ShouGang, Zhang, XiaoFei. Formation, stability, and dynamics of vector bright solitons in a trapless Bose-Einstein condensate with spin-orbit coupling. NEW JOURNAL OF PHYSICS[J]. 2020, 22(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000521961800001.
[35] Xue, WenXiang, Zhao, WenYu, Quan, HongLei, Zhao, CuiChen, Xing, Yan, Jiang, HaiFeng, Zhang, ShouGang. Microwave frequency transfer over a 112-km urban fiber link based on electronic phase compensation. CHINESE PHYSICS B[J]. 2020, 29(6): 207-211, http://lib.cqvip.com/Qikan/Article/Detail?id=7102153189.
[36] Wang, DongJie, Zhang, Xiang, Liu, Jie, Jiao, DongDong, Deng, Xue, Gao, Jing, Zang, Qi, Wang, Dan, Liu, Tao, Dong, RuiFang, Zhang, ShouGang. Novel Polarization Control Approach to Long-Term Fiber-Optic Frequency Transfer. CHINESE PHYSICS LETTERS[J]. 2020, 37(9): 26-29, http://lib.cqvip.com/Qikan/Article/Detail?id=7103140123.
[37] Quan, Runai, Dong, Ruifang, Xiang, Xiao, Li, Baihong, Liu, Tao, Zhang, Shougang. High-precision nonlocal temporal correlation identification of entangled photon pairs for quantum clock synchronization. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2020, 91(12): http://dx.doi.org/10.1063/5.0031166.
[38] Xiang, Xiao, Dong, Ruifang, Quan, Runai, Jin, Yaqing, Yang, Ye, Li, Ming, Liu, Tao, Zhang, Shougang. Hybrid frequency-time spectrograph for the spectral measurement of the two-photon state. OPTICS LETTERS[J]. 2020, 45(11): 2993-2996, https://www.webofscience.com/wos/woscc/full-record/WOS:000537763300012.
[39] Zhao Cuichen, Zhao Wenyu, Xue Wenxiang, Quan Honglei, Yan Lulu, Guo Wenge, Jiang Haifeng, Zhang Shougang. Microwave Frequency Dissemination via 50 km Optical Fiber Based on Optical Delay Compensation. ACTA PHOTONICA SINICA[J]. 2020, 49(8): [40] Hao, Qiang, Xue, Wenxiang, Li, Wenbing, Xu, Feng, Wang, Xin, Guo, Wenge, Yun, Peter, Zhang, Shougang. Microwave Pulse-Coherent Technique-Based Clock With a Novel Magnetron-Type Cavity. IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL[J]. 2020, 67(4): 873-878, https://www.webofscience.com/wos/woscc/full-record/WOS:000522170700020.
[41] 侯飞雁, 权润爱, 项晓, 靳亚晴, 董瑞芳, 刘涛, 张首刚. 基于实地光纤的双向量子时间传递实验研究. 时间频率学报[J]. 2020, 43(4): 253-261, http://lib.cqvip.com/Qikan/Article/Detail?id=7103635751.
[42] Deng, Xue, Jiao, DongDong, Liu, Jie, Zang, Qi, Zhang, Xiang, Wang, Dan, Gao, Jing, Dong, RuiFang, Liu, Tao, Zhang, ShouGang. Cascaded optical frequency transfer over 500-km fiber link using regenerative amplifier. CHINESE PHYSICS B[J]. 2020, 29(5): 260-264, http://lib.cqvip.com/Qikan/Article/Detail?id=7101995105.
[43] Shou-Gang Zhang. Sub-Hertz frequency stabilization of 1.55 μm laser on Higher order HGmn mode. optics communications. 2020, [44] Ning, Kai, Hou, Lei, Fan, SongTao, Yan, LuLu, Zhang, YanYan, Rao, BingJie, Zhang, XiaoFei, Zhang, ShouGang, Jiang, HaiFeng. An All-Polarization-Maintaining Multi-Branch Optical Frequency Comb for Highly Sensitive Cavity Ring-Down Spectroscopy*. CHINESE PHYSICS LETTERS[J]. 2020, 37(6): 26-30, http://lib.cqvip.com/Qikan/Article/Detail?id=7102224614.
[45] Yang, Ye, Xiang, Xiao, Hou, Feiyan, Quan, Runai, Li, Baihong, Li, Wei, Zhu, Ninghua, Liu, Tao, Zhang, Shougang, Dong, Ruifang, Li, Ming. Inherent resolution limit on nonlocal wavelength-to-time mapping with entangled photon pairs. OPTICS EXPRESS[J]. 2020, 28(5): 7488-7497, https://www.webofscience.com/wos/woscc/full-record/WOS:000518435600126.
[46] Li, Chao, Sun, Fuyu, Liu, Jie, Li, Xiaofeng, Ma, Jie, Guo, Guangkun, Hou, Dong, Zhang, Shougang. Non 0-0 states magnetically insensitive transitions in alkali species. PHYSICA SCRIPTA[J]. 2020, 95(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000525016400002.
[47] 李青林, 云恩学, 鱼少少, 李晓东, 张树宏, 句博文, 王鑫, 郝强, 高玉平, 张首刚. 基于相干极化调制的小型化CPT原子钟进展. 宇航计测技术[J]. 2020, 40(3): 22-26, http://lib.cqvip.com/Qikan/Article/Detail?id=7102797568.
[48] Xiang, Xiao, Dong, Ruifang, Li, Baihong, Hou, Feiyan, Quan, Runai, Liu, Tao, Zhang, Shougang. Quantification of nonlocal dispersion cancellation for finite frequency entanglement. OPTICS EXPRESS[J]. 2020, 28(12): 17697-17707, https://www.webofscience.com/wos/woscc/full-record/WOS:000542820800049.
[49] 赵粹臣, 赵文宇, 薛文祥, 全洪雷, 闫露露, 郭文阁, 姜海峰, 张首刚. 基于光学时延补偿的50km光纤微波频率传递. 光子学报[J]. 2020, 49(8): 33-39, http://lib.cqvip.com/Qikan/Article/Detail?id=7102539963.
[50] Wang, YaJun, Wen, Lin, Chen, GuangPing, Zhang, ShouGang, Zhang, XiaoFei. Formation, stability, and dynamics of vector bright solitons in a trapless Bose-Einstein condensate with spin-orbit coupling. NEW JOURNAL OF PHYSICS[J]. 2020, 22(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000521961800001.
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[142] 张首刚. L-C耦合电路对散粒噪声探测器电子学噪声的影响. 光子学报. 2017, [143] Xiang, Xiao, Zhang, Ziyue, Dong, Ruifang, Wang, Shaofeng, Han, Hainian, Liu, Tao, Zhang, Shougang, IEEE. Highly Efficient Carrier-envelope-offset Detection of a 137fs Ti:sapphire Mode-locked Laser. 2017 ASIA COMMUNICATIONS AND PHOTONICS CONFERENCE (ACP)null. 2017, [144] Zhang, Yanyan, Zhang, Xiaofei, Yan, Lulu, Zhang, Pan, Rao, Bingjie, Han, Wei, Guo, Wenge, Zhang, Shougang, Jiang, Haifeng. Steering optical comb frequencies by rotating the polarization state. OPTICS LETTERS[J]. 2017, 42(24): 5145-5148, https://www.webofscience.com/wos/woscc/full-record/WOS:000418019100024.
[145] 张首刚. 高精细度光学参考腔的自主化研制. 物理学报. 2017, [146] 任兆麟, 王叶兵, 韩建新, 孔德欢, 张首刚, 常宏. 锶原子三重态双耦合场下的原子相干谱观测. 光学学报[J]. 2017, 37(4): 0402001-1, [147] 张首刚. 窄线宽激光在光学谐振腔腔长精密测量中的应用. 光学学报. 2017, [148] Zhang, XiaoFei, Kato, Masaya, Han, Wei, Zhang, ShouGang, Saito, Hiroki. Spin-orbit-coupled Bose-Einstein condensates held under a toroidal trap. PHYSICAL REVIEW A[J]. 2017, 95(3): 033620-1-033620-7, https://www.webofscience.com/wos/woscc/full-record/WOS:000396427400011.
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[186] Yan LuLu, Zhang YanYan, Zhang Long, Fan SongTao, Zhang XiaoFei, Guo WenGe, Zhang ShouGang, Jiang HaiFeng. Attosecond-Resolution Er:Fiber-Based Optical Frequency Comb. CHINESE PHYSICS LETTERS[J]. 2015, 32(10): http://lib.cqvip.com/Qikan/Article/Detail?id=666304862.
[187] 王盟盟, 权润爱, 邰朝阳, 侯飞雁, 刘涛, 张首刚, 董瑞芳. 通信波长频率一致纠缠光源的频谱测量. 物理学报[J]. 2014, 63(19): 134-139, http://210.72.145.45/handle/361003/7303.
[188] 张首刚. 光纤激光经过模清器后 的强度噪声分析. 物理学报. 2014, [189] Zhang, XiaoFei, Du, ZhiJing, Tan, RenBing, Dong, RuiFang, Chang, Hong, Zhang, ShouGang. Vortices in a rotating two-component Bose-Einstein condensate with tunable interactions and harmonic potential. ANNALS OF PHYSICS[J]. 2014, 346: 154-163, http://dx.doi.org/10.1016/j.aop.2014.04.015.
[190] Wang Xin, Tan RenBing, Du ZhiJing, Zhao WenYu, Zhang XiaoFei, Zhang ShouGang. Ground state of rotating ultracold quantum gases with anisotropic spin-orbit coupling and concentrically coupled annular potential. CHINESE PHYSICS B[J]. 2014, 23(7): http://210.72.145.45/handle/361003/7384.
[191] 王盟盟, 权润爱, 邰朝阳, 侯飞雁, 刘涛, 张首刚, 董瑞芳. 通信波长频率一致纠缠光源的频谱测量. 物理学报[J]. 2014, 63(19): 134-139, http://210.72.145.45/handle/361003/7303.
[192] 张首刚. 光纤激光经过模清器后 的强度噪声分析. 物理学报. 2014, [193] Zhang, XiaoFei, Du, ZhiJing, Tan, RenBing, Dong, RuiFang, Chang, Hong, Zhang, ShouGang. Vortices in a rotating two-component Bose-Einstein condensate with tunable interactions and harmonic potential. ANNALS OF PHYSICS[J]. 2014, 346: 154-163, http://dx.doi.org/10.1016/j.aop.2014.04.015.
[194] Wang Xin, Tan RenBing, Du ZhiJing, Zhao WenYu, Zhang XiaoFei, Zhang ShouGang. Ground state of rotating ultracold quantum gases with anisotropic spin-orbit coupling and concentrically coupled annular potential. CHINESE PHYSICS B[J]. 2014, 23(7): http://210.72.145.45/handle/361003/7384.
[195] 张首刚. 应用于铯原子喷泉钟的二维磁光阱研制. 物理学报. 2013, [196] 张首刚. 超短脉冲抽运下频率一致纠缠光源量子特性实验研究. 物理学报. 2013, [197] Zhang Xiaofei, Li Biao, Zhang Shougang. Rotating spin–orbit coupled Bose–Einstein condensates in concentrically coupled annular traps. Laser Phys[J]. 2013, 105501-, http://210.72.145.45/handle/361003/7106.
[198] Zhang, XiaoFei, Gao, RiSheng, Wang, Xin, Dong, RuiFang, Liu, Tao, Zhang, ShouGang. Bose-Einstein condensates in concentrically coupled annular traps with spin-orbit coupling and rotation. PHYSICS LETTERS A[J]. 2013, 377(15): 1109-1113, http://www.irgrid.ac.cn/handle/1471x/596293.
[199] Zhang, XiaoFei, Li, Biao, Chen, JunChao, Zhang, ShouGang, Liu, W M. Formation of dark state in coupled atomic-molecular Bose-Einstein condensates with an external potential. OPTICS COMMUNICATIONS[J]. 2013, 291: 455-460, http://dx.doi.org/10.1016/j.optcom.2012.11.029.
[200] 张首刚. 应用于铯原子喷泉钟的二维磁光阱研制. 物理学报. 2013, [201] 张首刚. 超短脉冲抽运下频率一致纠缠光源量子特性实验研究. 物理学报. 2013, [202] Zhang Xiaofei, Li Biao, Zhang Shougang. Rotating spin–orbit coupled Bose–Einstein condensates in concentrically coupled annular traps. Laser Phys[J]. 2013, 105501-, http://210.72.145.45/handle/361003/7106.
[203] Zhang, XiaoFei, Gao, RiSheng, Wang, Xin, Dong, RuiFang, Liu, Tao, Zhang, ShouGang. Bose-Einstein condensates in concentrically coupled annular traps with spin-orbit coupling and rotation. PHYSICS LETTERS A[J]. 2013, 377(15): 1109-1113, http://www.irgrid.ac.cn/handle/1471x/596293.
[204] Zhang, XiaoFei, Li, Biao, Chen, JunChao, Zhang, ShouGang, Liu, W M. Formation of dark state in coupled atomic-molecular Bose-Einstein condensates with an external potential. OPTICS COMMUNICATIONS[J]. 2013, 291: 455-460, http://dx.doi.org/10.1016/j.optcom.2012.11.029.
[205] Zhang, XiaoFei, Dong, RuiFang, Liu, Tao, Liu, W M, Zhang, ShouGang. Spin-orbit-coupled Bose-Einstein condensates confined in concentrically coupled annular traps. PHYSICAL REVIEW A[J]. 2012, 86(6): http://ir.iphy.ac.cn/handle/311004/52938.
[206] Hou, Feiyan, Dong, Ruifang, Quan, Runai, Zhang, Yu, Bai, Yun, Liu, Tao, Zhang, Shougang, Zhang, Tongyi. Dispersion-free quantum clock synchronization via fiber link. ADVANCES IN SPACE RESEARCH[J]. 2012, 50(11): 1489-1494, http://dx.doi.org/10.1016/j.asr.2012.07.029.
[207] Zhang, XiaoFei, Dong, RuiFang, Liu, Tao, Liu, W M, Zhang, ShouGang. Spin-orbit-coupled Bose-Einstein condensates confined in concentrically coupled annular traps. PHYSICAL REVIEW A[J]. 2012, 86(6): http://ir.iphy.ac.cn/handle/311004/52938.
[208] Hou, Feiyan, Dong, Ruifang, Quan, Runai, Zhang, Yu, Bai, Yun, Liu, Tao, Zhang, Shougang, Zhang, Tongyi. Dispersion-free quantum clock synchronization via fiber link. ADVANCES IN SPACE RESEARCH[J]. 2012, 50(11): 1489-1494, http://dx.doi.org/10.1016/j.asr.2012.07.029.
[209] 赵侃, 梁双有, 陈法喜, 李孝峰, 张首刚. 精密时间间隔计数器的研制. 第二届中国卫星导航学术年会论文集null. 2011, 510-, http://210.72.145.45/handle/361003/5182.
[210] Shou-Gang Zhang. Observation of Autler-Towers effect in electromagnetically induced transparency. Chin.Phy.Lett. 2011, [211] 高峰, 常宏, 王心亮, 田晓, 张首刚. 锶原子Doppler冷却中再抽运光对原子俘获影响的理论和实验研究. 物理学报. 2011, 60(5): 133-139, http://lib.cqvip.com/Qikan/Article/Detail?id=37798683.
[212] 杜志静, 赵文宇, 刘杰, 张首刚. 脉冲激光抽运铷原子钟研究. 武汉大学学报:信息科学版. 2011, 36(10): 1236-1240, http://lib.cqvip.com/Qikan/Article/Detail?id=39535602.
[213] 赵侃, 梁双有, 陈法喜, 李孝峰, 张首刚. 精密时间间隔计数器的研制. 第二届中国卫星导航学术年会论文集null. 2011, 510-, http://210.72.145.45/handle/361003/5182.
[214] Shou-Gang Zhang. Observation of Autler-Towers effect in electromagnetically induced transparency. Chin.Phy.Lett. 2011, [215] 高峰, 常宏, 王心亮, 田晓, 张首刚. 锶原子Doppler冷却中再抽运光对原子俘获影响的理论和实验研究. 物理学报. 2011, 60(5): 133-139, http://lib.cqvip.com/Qikan/Article/Detail?id=37798683.
[216] 杜志静, 赵文宇, 刘杰, 张首刚. 脉冲激光抽运铷原子钟研究. 武汉大学学报:信息科学版. 2011, 36(10): 1236-1240, http://lib.cqvip.com/Qikan/Article/Detail?id=39535602.
[217] 张首刚. 利用赛曼减速法实现Sr四种同位素的磁光阱俘获. 光学学报. 2010, [218] 张首刚. 基准原子钟发展及冷原子锶光钟研究. 中国科学G辑. 2010, [219] Shou-Gang Zhang. Robust external cavity diode laser system with high frequency stability for Cesium atomic clock.. Chin.Opt.Lett.. 2010, [220] 张首刚. 利用赛曼减速法实现Sr四种同位素的磁光阱俘获. 光学学报. 2010, [221] 张首刚. 基准原子钟发展及冷原子锶光钟研究. 中国科学G辑. 2010, [222] Shou-Gang Zhang. Robust external cavity diode laser system with high frequency stability for Cesium atomic clock.. Chin.Opt.Lett.. 2010, [223] 张首刚. 新型原子钟发展现状. 时间频率学报. 2009, 81-91, http://lib.cqvip.com/Qikan/Article/Detail?id=33104931.
[224] Shou-Gang Zhang. Enhanced spin depolarizedand storage time in a Rb vapor. Chin.Phy.Lett. 2009, [225] 张首刚. 新型原子钟发展现状. 时间频率学报. 2009, 81-91, http://lib.cqvip.com/Qikan/Article/Detail?id=33104931.
[226] Shou-Gang Zhang. Enhanced spin depolarizedand storage time in a Rb vapor. Chin.Phy.Lett. 2009, 

指导学生

已指导学生

赵文宇  硕士研究生  080402-测试计量技术及仪器  

王鑫  硕士研究生  081001-通信与信息系统  

李孝峰  硕士研究生  081001-通信与信息系统  

刘杰  硕士研究生  070402-天体测量与天体力学  

刘丹丹  硕士研究生  080402-测试计量技术及仪器  

现指导学生

阮军  博士研究生  070402-天体测量与天体力学  

吴长江  博士研究生  070402-天体测量与天体力学  

杜志静  博士研究生  070402-天体测量与天体力学  

马喆  硕士研究生  070402-天体测量与天体力学  

姚英  博士研究生  070402-天体测量与天体力学  

张慧君  博士研究生  070402-天体测量与天体力学  

陈江  硕士研究生  070402-天体测量与天体力学  

薛文祥  硕士研究生  080402-测试计量技术及仪器  

赵文宇  博士研究生  080402-测试计量技术及仪器  

王鑫  博士研究生  080402-测试计量技术及仪器  

李孝峰  博士研究生  080402-测试计量技术及仪器  

白云  硕士研究生  081001-通信与信息系统  

张羽  硕士研究生  081001-通信与信息系统  

张林波  硕士研究生  070402-天体测量与天体力学  

刘杰  博士研究生  080402-测试计量技术及仪器