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J 174Yb+–113Cd+ sympathetic-cooling bi-species Coulomb crystal applied to microwave frequency standard,Y. Zheng, H. R. Qin, S. N. Miao, N. C. Xin, Y. T. Chen, J. Z. Han, J. W. Zhang, and L. J. Wang, Appl. Phys. Lett. (2023); doi: 10.1063/5.0164117, to be published
J Sympathetic cooling of a large 113Cd+ ion crystal with 40Ca+ in a linear Paul trap, S.N. Miao , H.R. Qin , N.C. Xin, J.Z. Han, Y.T. Chen, J.W. Zhang, L.J. Wang, Chinese Journal of Physics 83 (2023) 242–252. https://doi.org/10.1016/j.cjph.2023.03.015
J Second-order Doppler frequency shifts of trapped ions in a linear Paul trap, S. N. Miao , J.W. Zhang ,* Y. Zheng, H. R. Qin , N. C. Xin, Y. T. Chen, J. Z. Han, and L. J. Wang, PHYSICAL REVIEW A 106, 033121 (2022) https://doi.org/10.1103/PhysRevA.106.033121
C A Microwave Clock Based on Laser-Cooled 171Yb+ Ions, N. C. Xin, J.W. Zhang, S. N. Miao , Y. T. Chen, Y. Zheng, H.R. Qin, J.Z. Han, L. J. Wang, 2022 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFCS). DOI: 10.1109/EFTF/IFCS54560.2022.9850757
C Progress Towards a Microwave Frequency Standard Based on Sympathetically-cooled 113Cd+ Ions, S. N. Miao, J.W. Zhang, N. C. Xin, Y. T. Chen, J. Z. Han, Y. Zheng, L. J. Wang, 2022 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFCS). DOI: 10.1109/EFTF/IFCS54560.2022.9850845
J Determination of hyperfine splittings and Landé gJ factors of 5s 2S1/2 and 5p 2P1/2,3/2 states of 111,113Cd+ for microwave frequency standards, J. Z. Han , R. Si, H. R. Qin , N. C. Xin, Y. T. Chen, S. N. Miao, C. Y. Chen,* J.W. Zhang ,? and L. J. Wang?, PHYSICAL REVIEW A 106, 012821 (2022). DOI: 10.1103/PhysRevA.106.012821
J High-Performance Microwave Frequency Standard Based on Sympathetically Cooled Ions, Hao-Ran Qin (秦浩然) , Sheng-Nan Miao (苗胜楠) , Ji-Ze Han (韩济泽) , Nong-Chao Xin (辛弄潮) , Yi-Ting Chen (陈一婷) , J.W. Zhang (张建伟) ,* and L.J. Wang (王力军)?, PHYSICAL REVIEW APPLIED 18, 024023 (2022). DOI: 10.1103/PhysRevApplied.18.024023
J Isotope shift factors for the Cd+ 5s2S1/2→5p2P3/2 transition and determination of Cd nuclear charge radii, J. Z. Han, C. Pan, K. Y. Zhang, X. F. Yang, S. Q. Zhang, J. C. Berengut, S. Goriely, H. Wang, Y. M. Yu, J. Meng, J.W. Zhang, and L. J. Wang, Physical Review Research, Vol. 4, 033049 (2022). DOI: 10.1103/PhysRevResearch.4.033049
J Laser-cooled ^{171}Yb^+ microwave frequency standard with a short-term frequency instability of 8.5 × 10?13/√τ,N. C. XIN, H. R. QIN, S. N. MIAO, Y. T. CHEN, Y. ZHENG, J. Z. HAN, J.W. ZHANG,* AND L. J. WANG,Optics Expres Vol. 30, No. 9: 14574,2022. https://doi.org/10.1364/OE.453423
J Precision determination of the ground-state hyperfine splitting of trapped 113Cd+ ions, S. N. Miao, J.W. Zhang,* H. R. Qin, N. C. Xin, J. Z. Han, AND L. J. Wang, Optics Letters Vol. 46, No. 23, 5882, 2021. https://doi.org/10.1364/OL.444045
J Nong-Chao Xin, Sheng-Nan Miao, Hao-Ran Qin, Li-Ming Guo, Ji-Ze Han, Hua-Xing Hu, Wen-Xin Shi, J.W. Zhang* and Li-Jun Wang, "Research on the ions' axial temperature of a sympathetically-cooled 113Cd+ ion crystal", Chinese Physics B , 2021, Vol. 30(11): 113701
J J. Z. Han, H. R. Qin, N. C. Xin, Y. M. Yu, V. A. Dzuba, J.W. Zhang, and L. J. Wang, Toward a high-performance transportable microwave frequency standard based on sympathetically cooled 113Cd+ ions, Appl. Phys. Lett. 118, 101103 (2021); doi: 10.1063/5.0041314
C C.F. Wu, X.S. Yan, J.W. Zhang and L. J. Wang,Towards a Raman-Ramsey Clock based on a Cold Cesium Beam,2020 Joint Conference f the IEEE International Frequency Control Symposium & IEEE International Symposium on Application of Ferroelectrics,出版年:2020
C J.Z. Han, H.R. Qin, L.M.Guo, N.C. Xin, H.X. Hu, J.W. Zhang and L. J. Wang, Progress on Sympathetic Cooling of 113Cd+ by Laser-cooled 40Ca+ for Cadmium Ion Frequency Standard,2020 Joint Conference f the IEEE International Frequency Control Symposium & IEEE International Symposium on Application of Ferroelectrics.
C Li, Xiaojie; Meng, Zhixin; Yan, Peiqiang; J.W. Zhang; Feng, Yanying,A Multi-Axis Atom Interferometer Gyroscope Based on a Grating Chip,INERTIAL 2020 - 7th IEEE International Symposium on Inertial Sensors and Systems, Proceedings,出版年:2020
J Zuo, Y.N., J.Z. Han, J.W. Zhang, and L.J. Wang, Direct temperature determination of a sympathetically cooled large Cd-113(+) ion crystal for a microwave clock. Applied Physics Letters, 2019. 115(6): p. 061103. DOI: 10.1063/1.5094833.
J Han, J.Z., Y.M. Yu, B.K. Sahoo, J.W. Zhang, and L.J. Wang, Roles of electron correlation effects for the accurate determination of g(j) factors of low-lying states of Cd-113(+) and their applications to atomic clocks. PHYSICAL REVIEW A, 2019. 100(4): p. 042508. DOI: 10.1103/PhysRevA.100.042508.
J Han, J., Y. Zuo, J.W. Zhang, and L. Wang, Theoretical investigation of the black-body Zeeman shift for microwave atomic clocks. European Physical Journal D, 2019. 73(1): p. 9. DOI: 10.1140/epjd/e2018-90342-1.
J Cheng, P.F., J.W. Zhang, and L.J. Wang, Ramsey-coherent population trapping Cs atomic clock based on lin parallel to lin optical pumping with dispersion detection. Chinese Physics B, 2019. 28(7): p. 070601. DOI: 10.1088/1674-1056/28/7/070601.
C Zuo, Y.N., J.Z. Han, J.W. Zhang, and L.J. Wang, Progress towards a Cadmium Ion Microwave Clock: Improvement of the Signal-to-Noise Ratio of the Clock Signal based on Sympathetic Cooling, in 2019 Joint Conference of the IEEE International Frequency Control Symposium and European Frequency and Time Forum, IFCS/EFTF 2019. 2019: 8101 World Center Dr, Orlando, FL, United states.
C Cheng, P., J.W. Zhang, D. Zhang, and L.J. Wang, Suppression of Dick Effect by Interleaving Lock in a Ramsey-CPT Atomic Clock, in 50th Annual Precise Time and Time Interval Systems and Applications Meeting. 2019. p. 83-84.
J Wu, C.F., X.S. Yan, J.Q. Huang, J.W. Zhang, and L.J. Wang, Phase noise reduction by optical phase-locked loop for a coherent bichromatic laser based on the injection-locking technique. Review of Scientific Instruments, 2018. 89(1): p. 013103. DOI: 10.1063/1.4993262.
J Sun, X.-L., J.W. Zhang, P.-F. Cheng, Y.-N. Zuo, and L.-J. Wang, Theoretical analysis of suppressing Dick effect in Ramsey-CPT atomic clock by interleaving lock. Chinese Physics B, 2018. 27(2): p. 023101. DOI: 10.1088/1674-1056/27/2/023101.
J Pengfei, C., S. Xiaolin, J.W. Zhang, and W. Lijun, Suppression of Dick Effect in Ramsey-CPT Atomic Clock by Interleaving Lock. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2018. 65(11): p. 2195-2200. DOI: 10.1109/tuffc.2018.2864622.
J Fei, W.C., Y.X. Shu, W.L. Xun, M. Pei, T.J. Hui, J.W. Zhang, and W.L. Jun, Modulation transfer spectroscopy based on acousto-optic modulator with zero frequency shift. Chinese Physics B, 2018. 27(11): p. 114203. DOI: 10.1088/1674-1056/27/11/114203.
C Cheng, P., X. Sun, J. Tu, Z. Wang, J. Cui, J.W. Zhang, and L.J. Wang, Progress in Suppressing Dick Effect in the Ramsey-CPT Atomic Clock by Interleaving Lock, in 72nd Annual International Frequency Control Symposium, IFCS 2018. 2018: Olympic Valley, CA, United states.
C Zuo, Y.N., J.Z. Han, L. Wei, J.W. Zhang, and L.J. Wang, Progress Towards a Cadimium Ion Microwave Clock Based on Sympathetic Cooling, in 72nd Annual International Frequency Control Symposium, IFCS 2018. 2018: Olympic Valley, CA, United states.
C Zuo, Y.N., P.F. Cheng, X.L. Sun, L.J. Wang, J.W. Zhang, and L.J. Wang, Investigation of dual species ions cloud by molecular-dynamics simulation for microwave clocks, in 2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFC 2017. 2017. p. 481-483.
C Wu, C.F., X.S. Yan, J.H. Tu, P.X. Miao, P. Ma, J.W. Zhang, and L.J. Wang, A low phase noise Raman lasers system based on optical injection and an optical phase-lock loop, in 2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFC 2017. 2017. p. 631-632.
C Sun, X., P. Cheng, Y. Zuo, L. Wang, and J.W. Zhang, Reduction of dick effect in a pulsed CPT vapor cell clock by interleaving lock, in 2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFC 2017. 2017. p. 294-295.
C Cheng, P., X. Sun, F. Liu, D. Zhang, J.W. Zhang, and L. Wang, An electronic controller based on FPGA for the Ramsey-CPT atomic clock, in 2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFC 2017. 2017. p. 616-617.
C 左娅妮, 程鹏飞, 孙晓林, 张建伟, and 王力军, 基于双离子阱的协同冷却镉离子微波原子钟的研究进展, in 第八届中国卫星导航学术年会. 2017: 中国,上海市. p. 114-116.
C 孙晓林, 程鹏飞, 徐迟, 左娅妮, 张建伟, and 王力军, 基于色散探测的平行线偏型Ramsey-CPT原子钟的研究进展, in 第八届中国卫星导航学术年会论文集——S06原子钟与时频技术. 2017. p. 3.
J Yan, X., C. Wu, J. Huang, J.W. Zhang, and L. Wang, Velocity-tunable cold Cs atomic beam from a magneto-optical trap. Chinese Optics Letters, 2017. 15(4): p. 040202. DOI: 10.3788/col201715.040202.
C Zuo, Y.N., K. Miao, C. Gao, J.W. Zhang, and L.J. Wang, Progress of the dual-traps microwave frequency standard based on Cd-113+ ions, in IEEE International Frequency Control Symposium (IFCS). 2016. p. 171-174.
C Yan, X., J. Huang, C. Wuti, C. Gao, J.W. Zhang, and L. Wang, Progress toward a CPT-Ramsey clock based on a continuous cold cesium beam, in 2016 IEEE IFCS. 2016.
C Cheng, P.F., X.L. Sun, C. Xu, C. Gao, L. Zhao, J.W. Zhang, and L.J. Wang, A Vapor Cell Atomic Clock of Rb-87 Based on Ramsey-CPT with Dispersion Detection, in IEEE International Frequency Control Symposium (IFCS). 2016. p. 161-163.
C Cheng, P.F., X.L. Sun, C. Xu, C. Gao, L. Zhao, J.W. Zhang, and L.J. Wang, A vapor cell atomic clock of87Rb based on Ramsey-CPT with dispersion detection, in 2016 IEEE IFCS. 2016.
J Sun, X.L., J.W. Zhang, P.F. Cheng, C. Xu, L. Zhao, and L.J. Wang, Investigation of Ramsey spectroscopy in a lin-par-lin Ramsey coherent population trapping clock with dispersion detection. Optics Express, 2016. 24(5): p. 4532-4541. DOI: 10.1364/oe.24.004532.
J Huang, J.-Q., X.-S. Yan, C.-F. Wu, J.W. Zhang, and L.-J. Wang, Intense source of cold cesium atoms based on a two-dimensional magneto-optical trap with independent axial cooling and pushing. Chinese Physics B, 2016. 25(6): p. 063701. DOI: 10.1088/1674-1056/25/6/063701.
C J.W. Zhang, K. Miao, X. Sun, and L. Wang, Towards a high-performance microwave frequency standard based on113Cd+ions, in 2015 Joint Conference of the IEEE International Frequency Control Symposium and the European Frequency and Time Forum, FCS 2015. 2015: 美国. p. 758-760.
J Miao, K., J.W. Zhang, X.L. Sun, S.G. Wang, A.M. Zhang, K. Liang, and L.J. Wang, High accuracy measurement of the ground-state hyperfine splitting in a Cd-113(+) microwave clock. Optics Letters, 2015. 40(18): p. 4249-4252. DOI: 10.1364/ol.40.004249.
J Jia-Qiang, H., J.W. Zhang, W. Shi-Guang, W. Zheng-Bo, and W. Li-Jun, Temperature and number evolution of cold cesium atoms inside a wall-coated glass cell. Chinese Physics B, 2015. 24(11): p. 113701. DOI: 10.1088/1674-1056/24/11/113701.
C Miao, K., J.W. Zhang, S.G. Wang, and L.J. Wang, Improvement of the signal-to-noise ratio of the clock signal for the frequency standard based on 113Cd + ions, in 2014 Ieee international Frequency Control Symposium. 2014: 中国台湾.
J ZhengBo, W., Z. Lu, W. ShiGuang, J.W. Zhang, W. Bo, and W. LiJun, COMPASS time synchronization and dissemination-Toward centimetre positioning accuracy. Science China Physics,Mechanics & Astonomy, 2014. 57(9): p. 1788-1804. DOI: 10.1007/s11433-014-5508-z.
J J.W. Zhang, S.G. Wang, K. Miao, Z.B. Wang, and L.J. Wang, Toward a transportable microwave frequency standard based on laser-cooled Cd-113(+) ions. Applied Physics B-Lasers and Optics, 2014. 114(1-2): p. 183-187. DOI: 10.1007/s00340-013-5679-8.
J J.W.Zhang, K. Miao, S.G. Wang, and Z.B. Wang, Note: A novel design of a microwave feed for a microwave frequency standard with a linear ion trap. The Review of scientific instruments, 2014. 85(7): p. 76106-76106. DOI: 10.1063/1.4891075.
J Wang, Z.B., J.W. Zhang, S.G. Wang, K. Miao, and L.J. Wang, Laser frequency stability transfer using a fiber-based interferometer. Applied Optics, 2014. 53(15): p. 3283-3286. DOI: 10.1364/ao.53.003283.
C J.W. Zhang, S.G. Wang, K. Miao, Z.B. Wang, H.B. Xue, Y.Y. Feng, and L.J. Wang, High-precision measurement of the ground-state hyperfine splitting of 113Cd + Ions for an atomic clock, in Conference on Lasers and Electro Optics (CLEO:2013). 2013: 美国.
C J.W. Zhang, S.G. Wang, K. Miao, Z.B. Wang, and L.J. Wang, Preliminary results of the microwave frequency standard based on 113Cd + Ions, in 2013 Joint UFFC, EFTF and PFM Symposium. 2013. p. 239-40.
C J.W. Zhang, S. Wang, K. Miao, Z. Wang, and L. Wang, Progress towards a microwave atomic clock based on the laser-cooled cadmium ions, in.China Satellite Navigation Conference (CSNC) 2013 Proceedings. 2013: 中国. p. 307-313.
C Wang, S., J.W. Zhang, K. Miao, Z. Wang, and L. Wang, High-resolution frequency measurement of the ground-state hyperfine splitting of 113Cd+ ions, in.China Satellite Navigation Conference (CSNC) 2013 Proceedings. 2013: 中国. p. 371-378.
C 王正博, 赵路, 王时光, 张建伟, 王波, and 王力军, 北斗系统时频同步初探, in 第四届中国卫星导航学术年会. 2013: 中国.
J Wang, S.G., J.W. Zhang, K. Miao, Z.B. Wang, and L.J. Wang, Cooling and Crystallization of Trapped Cd-113(+) Ions for Atomic Clock. Chinese Physics Letters, 2013. 30(1): p. 13703. DOI: 10.1088/0256-307x/30/1/013703.
J Wang, S.G., J.W. Zhang, K. Miao, Z.B. Wang, and L.J. Wang, High-accuracy measurement of the Cd-113(+) ground-state hyperfine splitting at the milli-Hertz level. OPTICS EXPRESS, 2013. 21(10): p. 12434-12442. DOI: 10.1364/oe.21.012434.
J Wang, S., J.W. Zhang, Z. Wang, B. Wang, W. Liu, Y. Zhao, and L. Wang, Frequency stabilization of a 214.5-nm ultraviolet laser. CHINESE OPTICS LETTERS, 2013. 11(3): p. 031401. DOI: 10.3788/col201311.031401.
C J.W. Zhang, Z.B. Wang, S.G. Wang, K. Miao, and L.J. Wang, A Microwave Frequency Standard Based on the Laser Cooled Cd-113(+) ions, in 2012 European Frequency and Time Forum. 2012: 瑞典. p. 427-427.
C J.W. Zhang, Z.B. Wang, S.G. Wang, K. Miao, B. Wang, and L.J. Wang, Progress Towards A Microwave Frequency Standard Based on The Laser Cooled Cd-113(+) Ions, in 2012 Ieee International Frequency Control Symposium. 2012: 美国.
C Wang, B., C. Gao, W.L. Chen, J.W. Zhang, Y.Y. Feng, T.C. Li, and L.J. Wang, A 10(-18)/day Fiber-Based RF Frequency Dissemination Chain, in 2012 Conference on Lasers and Electro-Optics. 2012: 美国,纽约州.
J J.W. Zhang, Z.B. Wang, S.G. Wang, K. Miao, B. Wang, and L.J. Wang, High-resolution laser microwave double-resonance spectroscopy of hyperfine splitting of trapped Cd-113(+) and Cd-111(+) ions. Physical Review A (atomic, Molecular and Optical Physics), 2012. 86(2): p. 022523. DOI: 10.1103/PhysRevA.86.022523.
J Wang, B., C. Gao, W.L. Chen, J. Miao, X. Zhu, Y. Bai, J.W. Zhang, Y.Y. Feng, T.C. Li, and L.J. Wang, Precise and Continuous Time and Frequency Synchronisation at the 5x10(-19) Accuracy Level. Scientific Reports, 2012. 2: p. 556. DOI: 10.1038/srep00556.
J Wang, B., J.W. Zhang, C. Gao, and L.J. Wang, Highly efficient and isotope selective photo-ionization of barium atoms using diode laser and LED light. OPTICS EXPRESS, 2011. 19(17): p. 16438-16447.
J 王正博, 王时光, 张建伟, and 王力军, 离子存储、冷却及在量子频标中的应用. 中国科学:物理学 力学 天文学, 2011(04): p. 350-355.
J Wang, B., J.W. Zhang, Z.H. Lu, and L.J. Wang, Direct measurement of micromotion speed in a linear quadrupole trap. Journal of Applied Physics, 2010. 108(1): p. 13108. DOI: 10.1063/1.3457904.
J J.W. Zhang and D.H. Yang, High performance small optically pumped caesium beam frequency standard. Chinese Physics Letters, 2007. 24(6): p. 1553-1555.
J J.W. Zhang, K.K. Huang, and D.H. Yang, Compact extended cavity diode laser system for small optically pumped cesium beam frequency standards. Chinese Optics Letters, 2006. 4(9): p. 525-528.
J Kai-kai, H., J.W. Zhang, C. Jing-biao, and Y. Dong-hai, Reduce of the linewidth of a diode laser by locking to a high-finesse Fabry-Perot cavity. Chinese Physics Letters, 2006. 23(7): p. 1777-1779.
J Huang, K.K., J.W. Zhang, D.S. Yu, Z.H. Chen, W. Zhuang, and J.B. Chen, Application of electron-shelving detection via 423 nm transition in calcium-beam optical frequency standard. Chinese Physics Letters, 2006. 23(12): p. 3198-3201.
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