基本信息
邵虎 男 硕导 中国科学院精密测量科学与技术创新研究院
电子邮件: shaohu@apm.ac.cn
通信地址: 武昌区小洪山西30号
邮政编码: 430071
电子邮件: shaohu@apm.ac.cn
通信地址: 武昌区小洪山西30号
邮政编码: 430071
研究领域
囚禁离子光频标和囚禁离子精密谱
招生信息
招生专业
070203-原子与分子物理0702Z1-精密测量物理
招生方向
离子光频标,量子光学等
教育背景
2015-09--2018-06 中国科学院大学 博士/博士学位2012-09--2015-06 中国科学院大学 硕士/硕士学位2008-09--2012-06 西北师范大学 本科/学士学位
工作经历
工作简历
2021-11~现在, 中国科学院精密测量科学与技术创新研究院, 副研究员2021-03~2021-11,中国科学院精密测量科学与技术创新研究院, 访问学者2018-08~2020-12,德国联邦物理技术研究院, 博士后研究
专利与奖励
专利成果
[1] 邵虎, 乐虹伶, 管桦, 黄垚, 高克林. 一种集成化的用于可搬运镱离子光钟的激光稳频系统. 202320126174.7, 2023-02-06.[2] 乐虹伶, 邵虎, 管桦, 黄垚, 高克林. 一种基于ARTIQ的FPGA激光频率稳定装置. ZL 2022 2 3049941.3, 2022-11-14.[3] 邵虎, 乐虹伶, 管桦, 黄垚, 高克林. 一种可同时实现不同种类离子清晰成像的装置. CN 219799241 U, 2023-10-03.
出版信息
发表论文
[1] H. Shao, H. Yue, Z. Ma, Y. Huang, H. Guan, K. Gao. Precision determination of the 5d 2D3/2 state lifetime of single 174Yb+ ion. Physical. Review. Research[J]. 2023, 5(23193): [2] M. Steinel, H. Shao, M. Filzinger, B. Lipphardt, M. Brinkmann, A. Didier, T. E. Mehlstaubler, T. Lindvall, E. Peik, N. Huntemann. Evaluation of a 88Sr + Optical Clock with a Direct Measurement of the Blackbody Radiation Shift and Determination of the Clock Frequency. Physical Review Letters[J]. 2023, 131(83002): [3] Hong-Ling Yue, Hu Shao, Zheng Chen, Peng-Cheng Fang, Meng-Yan Zeng, Bao-Lin Zhang, Yao Huang, Ji-Guang Li, Qun-Feng Chen, Hua Guan, Ke-Lin Gao. Isotope-Shift Measurement of Bosonic Yb+ Ions. Chinese Physics Letters[J]. 2023, 9(93202): [4] Lange, R, Huntemann, N, Rahm, J M, Sanner, C, Shao, H, Lipphardt, B, Tamm, Chr, Weyers, S, Peik, E. Improved Limits for Violations of Local Position Invariance from Atomic Clock Comparisons. Physical Review Letters[J]. 2021, 126(1): http://dx.doi.org/10.1103/PhysRevLett.126.011102.[5] Lange, R, Huntemann, N, Sanner, C, Shao, H, Lipphardt, B, Tamm, Chr, Peik, E. Coherent Suppression of Tensor Frequency Shifts through Magnetic Field Rotation. Physical Review Letters[J]. 2020, 125(14): http://dx.doi.org/10.1103/PhysRevLett.125.143201.[6] Shao, H, Huang, Y, Guan, H, Gao, K. Direct measurement of the 3d D-2(3/2) to 3d D-2(5/2) lifetime ratio in a single trapped Ca-40(+). JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS[J]. 2018, 51(4): [7] Shao, H, Wang, M, Zeng, M, Guan, H, Gao, K. Laser ablation and two-step photo-ionization for the generation of Ca-40(+). JOURNAL OF PHYSICS COMMUNICATIONS[J]. 2018, 2(9): [8] Zeng, MengYan, Huang, Yao, Shao, Hu, Wang, Miao, Zhang, HuaQing, Zhang, BaoLin, Guan, Hua, Gao, KeLin. Improvement of Stability of Ca-40(+) Optical Clock with State Preparation. Chinese Physics Letters[J]. 2018, 35(7): http://ir.wipm.ac.cn/handle/112942/21304, http://www.irgrid.ac.cn/handle/1471x/6859186, http://ir.wipm.ac.cn/handle/112942/21305, http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000439269700009&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.[9] Shao, H, Huang, Y, Guan, H, Li, C, Shi, T, Gao, K. Precise determination of the quadrupole transition matrix element of Ca-40(+) via branching-fraction and lifetime measurements. Physical Review A[J]. 2017, 95(5): [10] Song, HongFang, Chen, ShaoLong, Zeng, MengYan, Huang, Yao, Shao, Hu, Tang, YongBo, Guan, Hua, Gao, KeLin. Relationship measurement between ac-Stark shift of Ca-40(+) clock transition and laser polarization direction. Chinese Physics B[J]. 2017, 26(9): [11] Shao, H, Huang, Y, Guan, H, Qian, Y, Gao, K. Precision measurement of the 3d D-2(3/2)-state lifetime in a single trapped Ca-40(+). Physical Review A[J]. 2016, 94(4): http://ir.wipm.ac.cn/handle/112942/9602.[12] Guan, Hua, Shao, Hu, Qian, Yuan, Huang, Yao, Liu, PeiLiang, Bian, Wu, Li, ChengBin, Sahoo, B K, Gao, KeLin. Combined experimental and theoretical probe of the lifetime of the 3d D-2(5/2) state in Ca-40(+). Physical Review A[J]. 2015, 91(2): http://ir.iphy.ac.cn/handle/311004/60939.[13] Liu PeiLiang, Huang Yao, Bian Wu, Shao Hu, Qian Yuan, Guan Hua, Tang LiYan, Gao KeLin. Correlation between the magic wavelengths and the polarization direction of the linearly polarized laser in the Ca+ optical clock. Chinese Physics B[J]. 2015, 24(3): http://ir.iphy.ac.cn/handle/311004/60408.[14] Liu, PeiLiang, Huang, Yao, Bian, Wu, Shao, Hu, Guan, Hua, Tang, YongBo, Li, ChengBin, Mitroy, J, Gao, KeLin. Measurement of Magic Wavelengths for the Ca-40(+) Clock Transition. Physical Review Letters[J]. 2015, 114(22): http://ir.wipm.ac.cn/handle/112942/4752.[15] Hua, Guan, Yao, Huang, Liu PeiLiang, Wu, Bian, Hu, Shao, Gao KeLin. Precision spectroscopy with a single Ca-40(+) ion in a Paul trap. Chinese Physics B[J]. 2015, 24(5): http://ir.wipm.ac.cn/handle/112942/4764.[16] 邵虎, 黄垚, 谢艺, 管桦, 高克林. 用于钙离子光频标的高性能脉冲时序产生方法. 量子电子学报[J]. 2015, 32(6): 668-, http://lk.hfcas.ac.cn/CN/Y2015/V32/I6/668.[17] Liu PeiLiang, Huang Yao, Bian Wu, Shao Hu, Qian Yuan, Guan Hua, Gao KeLin. Preliminary Frequency Comparison of Two Ca-40(+) Optical Frequency Standards. Chinese Physics Letters[J]. 2014, 31(11): http://ir.wipm.ac.cn/handle/112942/1402.
科研活动
科研项目
( 1 ) 镱离子多离子光钟, 负责人, 国家任务, 2021-12--2025-06( 2 ) 多离子光钟动力学研究, 负责人, 其他国际合作项目, 2021-12--2023-12( 3 ) 镱离子光钟研究, 参与, 国家任务, 2021-09--2024-09( 4 ) 采用动态解耦抑制40Ca+多离子光钟非均匀展宽的研究, 负责人, 国家任务, 2023-01--2025-12