中国科学院力学研究所 正高级工程师
2022年12月至今,中国科学院力学研究所,正高级工程师
2020年04月至2022年11月,中国科学院力学研究所,项目研究员
2016年12月至2022年12月,中国科学院力学研究所,副研究员
2015年03月至2016年12月,德国马普引力研究所(汉诺威),博士后
2013年05月至2014年12月,中国科学院力学研究所,助理研究员
2010年08月至2013年05月,中国科学院力学研究所,博士后
2007年09月至2010年06月,中国科学院数学与系统科学研究院,理学博士
2004年09月至2007年06月,首都师范大学数学系,理学硕士
2004年03月至2004年08月,中科院晨星数学中心,访问学生
2002年09月至2003年06月,北京大学天文系,肄业
1998年09月至2002年06月,中山大学理工学院,理学学士
1、 Chenyu Wang, Wei Liu, Yu Niu, Wei Sha & Ziren Luo. (2022). Using the Reflection Ellipsometry to Detect the Stress for the Gold Coating Reflection Mirrors. Microgravity Science and Technology 34(5).
2、 Ruihong Gao, Yikun Wang, Zhao Cui, Heshan Liu, Anwei Liu, Xingguang Qian, Xue Wang, Zhixiong Yao, Qiujie Yang, Jianjun Jia, Keqi Qi, Shaoxin Wang, Ziren Luo(*), Gang Jin, Jianyu Wang. (2022). On-ground demonstration of laser-link construction for space-based detection of gravitational waves. Optics and Lasers in Engineering 160(107287).
3、 Heshan Liu, Juan Wang, Ruihong Gao, Ziren Luo(*). (2022). Constant amplitude modulation heterodyne interferometry. Applied Optics 61(28) 8493-8499.
4、 Liming Wu, Peng Xu, Shuhong Zhao, Li-E Qiang, Ziren Luo & Yueliang Wu. (2022). Global Gravity Field Model from Taiji-1 Observations. Microgravity Science and Technology 34(77).
5、 Xiaokang Li, Heshan Liu, Pengzhan Wu, Haosi Li, Peng Xu & Ziren Luo(*). (2022). Proof-of-principle Experimental Demonstration of Time delay interferometry for Chinese Space-borne Gravitational Wave Detection Missions. Microgravity Science and Technology 34(64).
6、 Juan Wang, Heshan Liu, Ya Zhao, Ruihong Gao, Ran Yang & Ziren Luo(*). (2022). The Micro-Deformation Monitoring Based on the All-Fiber-Optic Sensor in Taiji Program. Microgravity Science and Technology 34(61).
7、 Jia Shen, Ya Zhao, Heshan Liu, Yu Niu, Ruihong Gao, Tong Guo, Donglin Zhao & Ziren Luo. (2022). Multi-channel Thermal Deformation Interference Measurement of the Telescope Supporting Frame in Space-borne Gravitational Wave Detection. Microgravity Science and Technology 34(59).
8、 Yuchan Yang, Wen-Biao Han, Qianyun Yun, Peng Xu and Ziren Luo. (2022). Tracing astrophysical black hole seeds and primordial black holes with LISA-Taiji network. MNRAS 512, 6217–6224.
9、 Xingyu Zhong, Wenbiao Han, Ziren Luo & Yueliang Wu. (2022). Exploring the nature of black hole and gravity with an imminent merging binary of supermassive black holes. SCIENCE CHINA Physics, Mechanics & Astronomy. Accepted.
10、 Gang Wang, Wei-Tou Ni, Wen-Biao Han, Peng Xu, and Ziren Luo(*). (2021). Alternative LISA-TAIJI networks. Phys. Rev. D 104, 024012.
11、 Heshan Liu, Tao Yu, Ziren Luo(*). (2021). A low-noise analog frontend design for the Taiji phasemeter prototype. Review of Scientific Instruments 92, 054501.
12、 Xiaodong Peng, Hongbo Jin, Peng Xu, Zhi Wang, Ziren Luo, Xiaoshan Ma, Li-E Qiang, Wenlin Tang, Xin Ma, Yuzhu Zhang, Zuolei Wang, Pengzhan Wu, Xiaoqin Deng, Haosi Li, Liming Wu, Juan Wang, Yuxiao Wei, Zhiyong Lin, Chen Gao, Mengyuan Zhao. (2021). System modeling in data processing of Taiji-1 mission. International Journal of Modern Physics A 36(11n12) 2140026.
13、 Jian Min, Jun-Gang Lei, Yun-Peng Li, Dong-Xue Xi, Wen-Ze Tao, Cun-Hui Li, Xiao-Qing Zhang, Zuo-Lei Wang, Da Fan, Zi-Ren Luo, Jun-Biao Wang, Zhi Wang, Ke-Qi Qi. (2021). Performance tests and simulations for Taiji-1 inertial sensor. International Journal of Modern Physics A 36(11n12) 2140011.
14、 Zi-Ren Luo, Tao Yu, He-Shan Liu. (2021). The phasemeter of Taiji-1 experimental satellite. International Journal of Modern Physics A 36(11n12) 2140005.
15、 He-Shan Liu, Zi-Ren Luo(*), Wei Sha. (2021). In-orbit performance of the laser interferometer of Taiji-1 experimental satellite. International Journal of Modern Physics A 36(11n12) 2140004.
16、 The Taiji Scientific Collaboration. (2021). The pilot of Taiji program — From the ground to Taiji-2. International Journal of Modern Physics A 36(11n12) 2102001.
17、 Ruihong Gao, Heshan Liu, Ya Zhao, Ziren Luo(*), Jia Shen, and Gang Jin. (2021). Laser acquisition experimental demonstration for space gravitational wave detection missions. Optics Express 29(5) 6368-6383.
18、 The Taiji Scientific Collaboration, Yueliang Wu, Ziren Luo(*), Jianyu Wang. (2021). China’s first step towards probing the expanding universe and the nature of gravity using a space borne gravitational wave antenna. Communications Physics 4 34.
19、 罗子人,张敏,靳刚,吴岳良,胡文瑞(2020)。中国空间引力波探测"太极计划"及"太极1号"在轨测试。深空探测学报,007(001):P.3-10。
20、 Ruihong Gao, Heshan Liu, Ya Zhao, Ziren Luo(*), and Gang Jin. (2020). Automatic, high-speed, high-precision acquisition scheme with QPD for the Taiji program. Optics Express 29(2) 821-836.
21、 Ya Zhao, Jia Shen, Chao Fang, Heshan Liu, Zhi Wang & Ziren Luo(*) (2020). Tilt-to-length noise coupled by wavefront errors in the interfering beams for the space measurement of gravitational waves. Optics Express, 28(17) 25545-25561.
22、 Ziren Luo, Yan Wang, Yueliang Wu, Wenrui Hu & Gang Jin (2020). The Taiji program: A concise overview. Progress of Theoretical and Experimental Physics, ptaa083.
23、 Ruihong Gao, Heshan Liu, Ziren Luo(*) & Gang Jin (2020). Linearity performance analysis of the differential wavefront sensing for the Taiji program. OURNAL OF MODERN OPTICS, 67(5) 383-393.
24、 Ruihong Gao, Heshan Liu, Ya Zhao, Ziren Luo(*) & Gang Jin (2020). High-precision laser spot center positioning method for weak light conditions. Applied Optics 59(6) 1763-1768.
25、 Ziren Luo, ZongKuan Guo, Gang Jin, Yueliang Wu & WenruiHu (2020). A brief analysis to Taiji: Science and technology. Results in Physics, 6, 102918.
26、 Zhi Wang, Tao Yu, Ya Zhao, Ziren Luo, Wei Sha, Chao Fang, Yukun Wang, Shaoxin Wang, Keqi Qi, Yongxian Wang & Xuanwen Xu (2020). Research on Telescope TTL Coupling Noise in Intersatellite Laser Interferometry. Photonic Sensors 10, 265–274.
27、 罗子人, 张敏, 靳刚(2019)。激光干涉引力波空间阵列核心问题的综合讨论。科学通报,64(24),2468-2474。
28、 高瑞弘,刘河山,罗子人* ,靳刚(2019)。太极计划激光指向调控方案介绍。中国光学,12(3),0425。
29、 刘河山,高瑞弘,罗子人* ,靳刚(2019)。空间引力波探测中的绝对距离测量及通信技术。中国光学,12(3),0486。
30、 Li, Y., Liu, H., Zhao, Y., Sha, W., Wang, Z., Luo(*), Z., & Jin, G. (2019). Demonstration of an Ultraprecise Optical Bench for the Taiji Space Gravitational Wave Detection Pathfinder Mission. Applied Sciences, 9(10), 2087.
31、 Li, Y., Luo(共一), Z., Liu, H., Gao, R., & Jin, G. (2018). Laser Interferometer for Space Gravitational Waves Detection and Earth Gravity Mapping. Microgravity Science and Technology, 30(6), 817–829.
32、 Liu, H., Luo(*), Z., & Jin, G. (2018). The Development of Phasemeter for Taiji Space Gravitational Wave Detection. Microgravity Science and Technology, 30(6), 775–781.
33、 Liu, H., Dong, Y., Gao, R., Luo, Z.(*), & Jin, G. (2018). Principle demonstration of the phase locking based on the electro-optic modulator for Taiji space gravitational wave detection pathfinder mission. Optical Engineering, 57(05), 1.
34、 Luo, Z., Liu, H., & Jin, G. (2018). The recent development of interferometer prototype for Chinese gravitational wave detection pathfinder mission. Optics and Laser Technology, 105, 146–151.
35、 王智,沙巍,陈哲,王永宪,康玉思,罗子人,黎明,李钰鹏(2018)。空间引力波探测望远镜初步设计与分析。中国光学,11(1),0131。
36、 Luo, Z.(*), Wang, Q., Mahrdt, C., Goerth, A., & Heinzel, G. (2017). Possible alternative acquisition scheme for the gravity recovery and climate experiment follow-on-type mission. Applied Optics, 56(5), 1495.
37、 Dong, Y., Liu, H., Luo, Z., Li, Y., & Jin, G. (2016). A comprehensive simulation of weak-light phase-locking for space-borne gravitational wave antenna. Science China Technological Sciences, 59(5), 730-737.
38、 Tang, W.-L., Luo, Z.-R., & Lau, Y.-K. (2016). Generalised Error Functions from the Kerr Metric. Chinese Physics Letters, 33(3), 030401.
39、 Li, Y. Q., Luo, Z. R.(共一), Liu, H. S., Dong, Y. H., & Jin, G. (2015). Path-length measurement performance evaluation of polarizing laser interferometer prototype. Applied Physics B, 118(2), 309-317.
40、 Dong, Y., Liu, H., Luo, Z., Li, Y., & Jin, G. (2015). Principle demonstration of fine pointing control system for inter-satellite laser communication. Science China Technological Sciences, 58(3), 449–453.
41、 Liu, H., Dong, Y., Luo, Z., Li, Y., & Jin, G. (2015). Multi-channel phasemeter and its application in the heterodyne laser interferometry. Science China Technological Sciences, 58(4), 746–749.
42、 Xue-fei, G., Sheng-nian, X., Ye-fei, Y., Shan, B., Xing, B., Zhou-jian, C., … Yun-kau, L. (2015). Laser Interferometric Gravitational Wave Detection in Space and Structure Formation in the Early Universe. Chinese Astronomy and Astrophysics, 39(4), 411–446.
43、 Gong, X., Lau, Y.-K., Xu, S., Amaro-Seoane, P., Bai, S., Bian, X., … Zhou, Z. (2015). Descope of the ALIA mission. Journal of Physics: Conference Series, 610, 012011.
44、 Xu, P., Qiang, L.E., Bian, X., Dong, P., Ju, P., Gao, W., Gong, X., Luo, Z., Shao, M., Tang, W. and Wan, X. (2015). A preliminary study of level 1A data processing of a low–low satellite to satellite tracking mission. Geodesy and Geodynamics, 6(5), pp.333-343.
45、 罗子人, 钟敏, 边星, 董鹏, 董玉辉, 高伟, 李洪银, 李玉琼, 刘河山, 冉将军, 邵明学, 唐文林, 徐鹏, 杨然, 靳刚. (2014)。地球重力场空间探测: 回顾与展望[J]. 力学进展, 44(1): 201408.
46、 Dong, Y.-H., Liu, H.-S., Luo, Z.-R., Li, Y.-Q., & Jin, G. (2014). Methodological demonstration of laser beam pointing control for space gravitational wave detection missions. Review of Scientific Instruments, 85(7), 074501.
47、 Liu, H. S., Dong, Y. H., Li, Y. Q., Luo, Z. R., & Jin, G. (2014). The evaluation of phasemeter prototype performance for the space gravitational waves detection. Review of Scientific Instruments, 85(2).
48、 罗子人, 白姗, 边星, 陈葛瑞, 董鹏, 董玉辉, 高伟, 龚雪飞, 贺建武, 李洪银, 李向前, 李玉琼, 刘河山, 邵明学. (2013)。空间激光干涉引力波探测[J]. 力学进展, 43(4): 415-447.
49、 Yu-Qiong, L., Zi-Ren, L.(共一), He-Shan, L., Yu-Hui, D., & Gang, J. (2012). Laser Interferometer Used for Satellite—Satellite Tracking: an On-Ground Methodological Demonstration. Chinese Physics Letters, 29(7), 079501.
50、
51、 Gong, X., Xu, S., Bai, S., Cao, Z., Chen, G., Chen, Y., … Zhou, Z. (2011). A scientific case study of an advanced LISA mission. Classical and Quantum Gravity, 28(9), 094012.
52、 Yang, R., Gong, X., Pei, S., Luo, Z. (*), & Lau, Y. K. (2011). Macroscopic Quantum Mechanics and Single-Photon Michelson Interferometry. International Journal of Modern Physics D, 20(10), 2093-2098.
53、 2. Yang, R., Gong, X., Pei, S., Luo, Z. (*), & Lau, Y. K. (2010). Sagnac interferometry as a probe to the commutation relation of a macroscopic quantum mirror. Physical Review A, 82(3), 032120.
54、 Gong, X., Shang, Y., Bai, S., Cao, Z., Luo, Z., & Lau, Y. K. (2007). Newman-Penrose constants of the Kerr-Newman metric. Physical Review D - Particles, Fields, Gravitation and Cosmology, 76(10), 4–7.
获奖及荣誉:
《领跑者五千》优秀论文奖
2019年中国十大科技进展新闻
2021年度力学所人才“伯乐”奖
2021年度力学所“十大亮点工作”
2022年度力学所“人才贡献三等奖”
社会任职:
空间科学学报,第九届编委,2022-
中国空间科学学会专业委员会青年委员,2022-
国科大杭州高等研究院太极实验室,副主任,2020-
太极联盟副秘书长、太极二号首席科学家助理、太极一号核心测量分系统主任设计师
1、 中科院联合基金项目“基于加速度计和干涉陀螺的重力梯度仪”, 2022.1-2024.12
2、 国家重点研发计划项目“星间激光干涉测量系统分析与设计”,2020.12-2025.11。
3、 空间科学先导(二期)A类子课题“星间激光干涉仪关键技术”, 2020.8-2021.12。
4、 空间科学先导(二期)A类子子课题“空间干涉仪设计与性能指标测试”, 2018.8-2019.8。
5、 空间科学先导(二期)A类子子课题“超精密多功能干涉仪”, 2018.1-2020.12。
空间引力波探测,精密测量物理与技术,数学广义相对论,量子光学与量子测量。