发表论文
[1] 王少锋, 刘宣泽, 李汉卿, 李康康, 董瑞芳. 基于R-C耦合跨阻设计的1 kHz~200 MHz宽带平衡零拍探测器. 光学学报[J]. 2023, 第 5 作者 通讯作者 43(9): 198-203, http://lib.cqvip.com/Qikan/Article/Detail?id=7110015103.[2] Dongdong Jiao, Jing Gao, Linbo Zhang, Xue Deng, Qi Zang, Guanjun Xu, Ruifang Dong, Tao Liu, Shougang Zhang. Theoretical and experimental study on vibration sensitivity of a transportable spherical optical reference cavity with multi-channel. OPTICS COMMUNICATIONS[J]. 2023, 第 7 作者 通讯作者 537: http://dx.doi.org/10.1016/j.optcom.2023.129459.[3] HongChang, XinYang, JinwenWang, YanMa, XinqiYang, MingtaoCao, XiaofeiZhang, HongGao, RuifangDong, ShougangZhang. Atomic optical spatial mode extractor for vector beams based on polarization-dependent absorption. Chinese Physics B[J]. 2023, 第 9 作者32(3): 034207, https://cpb.iphy.ac.cn/EN/10.1088/1674-1056/acac19.[4] Li, Baihong, Yuan, Boxin, Chen, Changhua, Xiang, Xiao, Quan, Runai, Dong, Ruifang, Zhang, Shougang, Jin, RuiBo. Spectrally resolved two-photon interference in a modified Hong-Ou-Mandel interferometer. OPTICS AND LASER TECHNOLOGY[J]. 2023, 第 6 作者 通讯作者 159: http://dx.doi.org/10.1016/j.optlastec.2022.109039.[5] 董瑞芳. Complete spectral characterization of biphotons by simultaneously determining their frequency sum and difference in a single quantum interferometer. Physical Review A[J]. 2023, 第 1 作者 通讯作者 108(2): 023713, [6] Guo, Xinxing, Liu, Bo, Kong, Weicheng, Quan, Honglei, Zhang, Yucan, Liu, Tao, Dong, Ruifang, Zhang, Shougang. A high-precision bidirectional time-transfer system over a single fiber based on wavelength-division multiplexing and time-division multiplexing. FRONTIERS IN PHYSICS[J]. 2023, 第 7 作者10: http://dx.doi.org/10.3389/fphy.2022.1080966.[7] 李娟, 刘鹏, 项晓, 刘涛, 董瑞芳, 张首刚. 空间走离对量子光学频率梳压缩特性的影响. 物理学报[J]. 2023, 第 5 作者 通讯作者 72(8): 169-175, http://lib.cqvip.com/Qikan/Article/Detail?id=7109466007.[8] Zang, Qi, Deng, Xue, Zhang, Xiang, Wang, Dan, Zhou, Qian, Jiao, Dongdong, Xu, Guanjun, Gao, Jing, Liu, Jie, Liu, Tao, Dong, Ruifang, Zhang, Shougang. Cascaded transfer of optical frequency with a relay station over a 224 km deployed fiber link. INFRARED PHYSICS & TECHNOLOGY[J]. 2023, 第 11 作者 通讯作者 128: http://dx.doi.org/10.1016/j.infrared.2022.104511.[9] Dongdong Jiao, Xue Deng, Jing Gao, Linbo Zhang, Guanjun Xu, Tao Liu, Ruifang Dong, Shougang Zhang. Highly vibration-resistant sub-Hertz ultra-stable laser passing over 1700km transport test. INFRARED PHYSICS AND TECHNOLOGY. 2023, 第 7 作者 通讯作者 130: http://dx.doi.org/10.1016/j.infrared.2023.104608.[10] 董瑞芳. Dispersion broadening of the two-photon quantum interference width due to temporal filtering. Physical Review Applied[J]. 2023, 第 1 作者 通讯作者 20(4): 044080, Temporal filtering is widely recognized as an effective strategy for improving the visibility of the Hong-Ou-Mandel interferometer, an important tool for observing the phenomenon of two-photon quantum interference. However, such manipulation may lead to additional effects on the measurement. In addition to demonstrating the degradation of photon-detection efficiency, this paper demonstrates that temporal filtering can significantly broaden the interference width, especially in scenarios where photons experience substantial dispersion. This broadening effect is also presented in the nonlocal Franson interferometer. The good agreement between experimental results and theoretical simulations not only reveals the mechanism behind dispersion-induced broadening in two-photon quantum interference but also provides an alternative and convenient method for measuring dispersion without the need for extra equipment..[11] 董瑞芳. A compact, transportable 1550 nm ultra-stable laser system with Hertz linewidth. Applied Physics B: Lasers and Optics[J]. 2023, 第 1 作者 通讯作者 129(10): 149, [12] Zhang, Xiang, Hu, Liang, Deng, Xue, Zang, Qi, Jiao, Dongdong, Gao, Jing, Wang, Dan, Zhou, Qian, Liu, Jie, Xu, Guanjun, Liu, Tao, Dong, Ruifang, Zhang, Shougang. Passively stable dissemination of ultrastable optical frequency via a noisy field fiber network. OPTICS AND LASER TECHNOLOGY[J]. 2023, 第 12 作者 通讯作者 157: http://dx.doi.org/10.1016/j.optlastec.2022.108738.[13] YAQING JIN, YE YANG, HUIBO HONG, XIAO XIANG, RUNAI QUAN, TAO LIU, NINGHUA ZHU, Li, Ming, SHOUGANG ZHANG, RUIFANG DONG. Surpassing the classical limit of the microwave photonic frequency fading effect by quantum microwave photonics. 光子学研究:英文版[J]. 2023, 第 10 作者 通讯作者 11(6): 1094-1104, http://lib.cqvip.com/Qikan/Article/Detail?id=7110219995.[14] Chen, Long, Hu, Xuwen, Han, Liang, Xu, Guanjun, Liu, Lei, Li, Yang, Liu, Tao, Dong, Ruifang, Zhang, Shougang. Theoretical and experimental study on vibration sensitivity of cubic cavity for space applications. OPTICS AND LASER TECHNOLOGY[J]. 2023, 第 8 作者158(null): http://dx.doi.org/10.1016/j.optlastec.2022.108915.[15] Gao, Jing, Jiao, Dongdong, Zhang, Linbo, Xu, Guanjun, Deng, Xue, Zang, Qi, Yang, Honglei, Dong, Ruifang, Liu, Tao, Zhang, Shougang. Vibration sensitivity minimization of an ultra-stable optical reference cavity based on orthogonal experimental design. OPEN PHYSICS[J]. 2023, 第 8 作者 通讯作者 21(1): http://dx.doi.org/10.1515/phys-2022-0269.[16] Gao, Jing, Zhang, Linbo, Jiao, Dongdong, Xu, Guanjun, Bu, Jiayu, Wu, Mengfan, Zang, Qi, Zhang, Xiang, Dong, Ruifang, Liu, Tao, Zhang, Shougang. Analysis and Reduction of Nonlinear Effects in Optical Fiber Frequency Transfer. APPLIED SCIENCES-BASEL[J]. 2023, 第 9 作者 通讯作者 13(23): http://dx.doi.org/10.3390/app132312762.[17] Jiayu Bu, Dongdong Jiao, Guanjun Xu, Linbo Zhang, Jing Gao, Mengfan Wu, Qi Zang, Xue Deng, Qi Zang, Tao Liu, Ruifang Dong, Shougang Zhang. Fast auto-relock methods for ultra-stable lasers. INFRARED PHYSICS AND TECHNOLOGY[J]. 2023, 第 11 作者 通讯作者 134: http://dx.doi.org/10.1016/j.infrared.2023.104915.[18] 刘妤婷, 邢俊杰, 夏志广, 权润爱, 洪辉博, 刘涛, 张首刚, 项晓, 董瑞芳. All-fiber telecom band energy-time entangled biphoton source. 中国光学快报:英文版[J]. 2023, 第 9 作者 通讯作者 21(3): 127-131, http://lib.cqvip.com/Qikan/Article/Detail?id=7109585584.[19] Gao, Jing, Zhang, Linbo, Deng, Xue, Jiao, Dongdong, Zhang, Xiang, Zang, Qi, Wu, Mengfan, Xu, Guanjun, Dong, Ruifang, Liu, Tao, Zhang, Shougang. Explorative Research on 100 mW Magnitude Optical Frequency Transmission Via Fiber. JOURNAL OF RUSSIAN LASER RESEARCH. 2023, 第 9 作者http://dx.doi.org/10.1007/s10946-023-10163-5.[20] 董瑞芳. Multiple-Branch Optical Frequency Transfer Without the Frequency Allocation Constraints. Journal of Lightwave Technology[J]. 2023, 第 1 作者[21] Liu, Bo, Guo, Xinxing, Kong, Weicheng, Liu, Tao, Dong, Ruifang, Zhang, Shougang. Stabilized Time Transfer via a 1000-km Optical Fiber Link Using High-Precision Delay Compensation System. PHOTONICS[J]. 2022, 第 5 作者9(8): http://dx.doi.org/10.3390/photonics9080522.[22] Xing, Junjie, Xiang, Xiao, Quan, Runai, Liu, Tao, Dong, Ruifang, Zhang, Shougang. A quick-test method for the two-photon spectral correlation quantification. OPTIK[J]. 2022, 第 5 作者 通讯作者 259: http://dx.doi.org/10.1016/j.ijleo.2022.168906.[23] Jiao, Dongdong, Xu, Guanjun, Zhang, Linbo, Gao, Jing, Li, Yang, Dong, Ruifang, Liu, Tao, Zhang, Shougang. Research on Brownian Thermal Noise Limit of a Cylindrical Ultra-Stable Cavity with Support Pads. 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PHOTONICS RESEARCH[J]. 2022, 第 10 作者 通讯作者 10(7): 1669-1678, [27] XiangZhang, XueDeng, QiZang, DongdongJiao, JingGao, DanWang, QianZhou, JieLiu, GuanjunXu, RuifangDong, TaoLiu, ShougangZhang. Coherent Optical Frequency Transfer via a 490 km Noisy Fiber Link. Chinese Physics Letters[J]. 2022, 第 10 作者 通讯作者 39(4): 44201-11, https://cpl.iphy.ac.cn/10.1088/0256-307X/39/4/044201.[28] 刘鹏, 李娟, 项晓, 曹明涛, 董瑞芳, 刘涛, 张首刚. 非临界压缩光场探测的实验方案研究. 物理学报[J]. 2022, 第 5 作者71(1): 11-17, https://wulixb.iphy.ac.cn/cn/article/doi/10.7498/aps.71.20211212.[29] Zhang, Xiang, Hu, Liang, Deng, Xue, Zang, Qi, Liu, Jie, Jiao, Dongdong, Gao, Jing, Dong, Ruifang, Liu, Tao, Wu, Guiling, Chen, Jianping, Zhang, Shougang. All-Passive Cascaded Optical Frequency Transfer. IEEE PHOTONICS TECHNOLOGY LETTERS[J]. 2022, 第 8 作者 通讯作者 34(8): 413-416, http://dx.doi.org/10.1109/LPT.2022.3164406.[30] Xiang, Xiao, Quan, Runai, Liu, Yuting, Shi, Bingke, Hong, Huibo, Jin, Yaqing, Liu, Tao, Dong, Ruifang, Zhang, Shougang. Widely flexible and finely adjustable nonlocal dispersion cancellation with wavelength tuning. OPTICS EXPRESS[J]. 2022, 第 8 作者 通讯作者 30(25): 44487-44495, [31] Fan, Le, Jiao, Dongdong, Liu, Jun, Chen, Long, Xu, Guanjun, Zhang, Linbo, Liu, Jie, Dong, Ruifang, Liu, Tao, Zhang, Shougang. Prompt Frequency Stabilization of Ultra-Stable Laser via Improved Mean Shift Algorithm. ELECTRONICS[J]. 2022, 第 8 作者 通讯作者 11(9): http://dx.doi.org/10.3390/electronics11091319.[32] Yang, Ye, Jin, Yaqing, Xiang, Xiao, Hao, Tengfei, Li, Wei, Liu, Tao, Zhang, Shougang, Zhu, Ninghua, Dong, Ruifang, Li, Ming. Single-photon microwave photonics. SCIENCE BULLETIN[J]. 2022, 第 9 作者 通讯作者 67(7): 700-706, http://dx.doi.org/10.1016/j.scib.2021.11.019.[33] Guo, Xinxing, Qiu, Yanfeng, Liu, Bo, Kong, Weicheng, Liu, Tao, Dong, Ruifang, Zhang, Shougang. A High-Precision Transfer of Time and RF Frequency via the Fiber-Optic Link Based on Secure Encryption. APPLIED SCIENCES-BASEL[J]. 2022, 第 6 作者12(13): http://dx.doi.org/10.3390/app12136643.[34] 洪辉博, 权润爱, 项晓, 薛文祥, 全洪雷, 赵文宇, 刘妤婷, 曹明涛, 刘涛, 张首刚, 董瑞芳. Demonstration of 50 Km Fiber-Optic Two-Way Quantum Clock Synchronization. JOURNAL OF LIGHTWAVE TECHNOLOGY[J]. 2022, 第 11 作者 通讯作者 40(12): 3723-3728, [35] Hao, Tengfei, Yang, Ye, Jin, Yaqing, Xiang, Xiao, Li, Wei, Zhu, Ninghua, Dong, Ruifang, Li, Ming. Quantum Microwave Photonics. JOURNAL OF LIGHTWAVE TECHNOLOGY[J]. 2022, 第 7 作者40(20): 6616-6625, [36] 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, 第 6 作者 通讯作者 48(3): [37] Bai, Yang, Wang, Xinliang, Shi, Junru, Yang, Fan, Ruan, Jun, Dong, Ruifang, Zhang, Shougang. The Application of Low-Frequency Transition in the Assessment of the Second-Order Zeeman Frequency Shift. SENSORS[J]. 2021, 第 6 作者21(24): http://dx.doi.org/10.3390/s21248333.[38] Xu, Guanjun, Jiao, Dongdong, Chen, Long, Zhang, Linbo, Dong, Ruifang, Liu, Tao, Wang, Junbiao. Thermal Noise in Cubic Optical Cavities. PHOTONICS[J]. 2021, 第 5 作者 通讯作者 8(7): http://dx.doi.org/10.3390/photonics8070261.[39] Xu, G, Jiao, D, Chen, L, Zhang, L, Dong, R, Liu, T, Wang, J. Vibration modes of a transportable optical cavity. OPTICS EXPRESS[J]. 2021, 29(15): 24264-24277, http://dx.doi.org/10.1364/OE.422182.[40] 安岳松, 李娟, 项晓, 刘鹏, 董瑞芳. 基于外腔倍频的双色高重频飞秒激光产生. 时间频率学报[J]. 2021, 第 5 作者44(2): 77-84, http://lib.cqvip.com/Qikan/Article/Detail?id=7105233263.[41] 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. 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PHOTONICS[J]. 2021, 第 9 作者 通讯作者 8(8): http://dx.doi.org/10.3390/photonics8080325.[44] 许冠军, 焦东东, 张林波, 高静, 刘军, 范乐, 陈龙, 董瑞芳, 刘涛, 张首刚. 1550nm可搬运超稳激光工程化研制. 时间频率学报[J]. 2021, 第 8 作者44(4): 244-254, http://lib.cqvip.com/Qikan/Article/Detail?id=7106398321.[45] 刘涛, 陈国超, 陈法喜, 赵侃, 董瑞芳, 张首刚. 基于TDC的无死区频率测量技术研究. 电子与信息学报[J]. 2021, 第 5 作者43(9): 2518-2525, https://jeit.ac.cn/cn/article/doi/10.11999/JEIT200807.[46] 江晨晖, 张林波, 陈龙, 刘涛, 董瑞芳, 张首刚. 10^(-16)量级698 nm超稳激光. 光子学报[J]. 2021, 第 5 作者50(11): 39-48, http://lib.cqvip.com/Qikan/Article/Detail?id=7106124622.[47] 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, 第 2 作者 通讯作者 70(12): 22-29, [48] 陈法喜, 孔维成, 赵侃, 李博, 刘博, 郭新兴, 陈国超, 张首刚, 刘涛, 董瑞芳. 高精度长距离光纤时间传递的研究进展及应用. 时间频率学报[J]. 2021, 第 10 作者44(4): 266-278, http://lib.cqvip.com/Qikan/Article/Detail?id=7106398323.[49] Xu, Guanjun, Jiao, Dongdong, Chen, Long, Zhang, Linbo, Liu, Jun, Dong, Ruifang, Liu, Tao, Wang, Junbiao. Research on Shock Acceleration Limit of an Ultra-Stable Optical Cavity for Space Applications Based on the Finite Element Methodology. CRYSTALS[J]. 2021, 第 6 作者 通讯作者 11(8): http://dx.doi.org/10.3390/cryst11080998.[50] 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, 第 6 作者 通讯作者 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..[51] 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[J]. 2021, 第 2 作者70(7): 120-128, https://wulixb.iphy.ac.cn/cn/article/doi/10.7498/aps.70.20201648.[52] 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[J]. 2021, 第 6 作者48(3): 148-155, http://lib.cqvip.com/Qikan/Article/Detail?id=7104525422.[53] DongJieWang, XiangZhang, JieLiu, DongDongJiao, XueDeng, JingGao, QiZang, DanWang, TaoLiu, RuiFangDong, ShouGangZhang. Novel Polarization Control Approach to Long-Term Fiber-Optic Frequency Transfer. 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