姓名：崔凯枫

最终学历：博士

职称：副研究员/校直聘副研究员

研究方向：量子精密测量与量子模拟

招生专业：光学

电子邮箱：cuikaifeng@zzu.edu.cn

一、教育及工作背景：

2023.7月至今：郑州大学求是计划副研究员

2021.9–2023.5：中国科学院精密测量科学与技术创新研究院，特别研究助理

2020.5–2021.7：美国 国家标准局，访问合作

2020.5–2021.7：美国 阿贡国家实验室，博士后

2019.7–2020.4：中国科学院 武汉物理与数学研究所，助理研究员

二、主持科研项目：

（1）河南省优秀青年基金，批准号：252300421207，“基于超冷离子的量子精密测量”，2025年1月至2027年12月

（2）国家自然基金面上项目，批准号：12374466，“应用于离子光钟的多离子纠缠态制备和光谱探测研究”，2024年1月至2027年12月

（3）国家自然基金青年项目，批准号：11904387，“铝离子光频标宏运动频移的控制”，2020年1月至2022年12月

三、代表性论文：

[1] Y. Yuan, K. Cui, D. Liu, J. Yuan, J. Cao, D. Wang, S. Chao, H. Shu, and X. Huang, Demonstration of chronometric leveling using transportable optical clocks beyond laser coherence limit, Phys. Rev. Appl. 21, 044052 (2024).

[2] Y.-F. Wei, S.-J. Chao, K.-F. Cui, C.-B. Li, S.-C. Yu, H. Zhang, H.-L. Shu, J. Cao, and X.-R. Huang, Improved Measurement of the Differential Polarizability Using Co-Trapped Ions, Phys. Rev. Lett. 133, 033001 (2024).

[3] L.-Y. Wang, J.-F. Wei, K.-F. Cui, S.-L. Su, M. Feng, L.-L. Yan, G. Chen, H.-Z. Guo, and C.-X. Shan, Rotation Sensing of a Trapped Nanoparticle Assisted by Magnetic Field Gradient, Phys. Rev. Appl. 20, 034063 (2023).

[4] S.-B. Tang, H. Qin, B.-B. Liu, D.-Y. Wang, K. Cui, S.-L. Su, L.-L. Yan, and G. Chen, Enhancement of quantum sensing in a cavity-optomechanical system around the quantum critical point, Phys. Rev. A 108, 053514 (2023).

[5] C. Sun, K. Cui, S. Chao, Y. Wei, J. Yuan, J. Cao, H. Shu, and X. Huang, Sympathetic electromagnetically-induced-transparency ground state cooling of a⁴⁰Ca⁺-²⁷Al⁺pair in²⁷Al⁺clock, Chinese Phys. B (2023).

[6] D.-X. Liu, J. Cao, J.-B. Yuan, K.-F. Cui, Y. Yuan, P. Zhang, S.-J. Chao, H.-L. Shu, and X.-R. Huang, Laboratory demonstration of geopotential measurement using transportable optical clocks, Chinese Phys. B 32, 010601 (2023).

[7] Y.-F. Wei, Z.-M. Tang, C.-B. Li, Y. Yang, Y.-M. Zou, K.-F. Cui, and X.-R. Huang, Dynamic polarizabilities of the clock states of Al+, Chinese Phys. B 31, 083102 (2022).

[8] C. Sun, K. Cui, S. Chao, Y. Wei, J. Yuan, J. Cao, H. Shu, and X. Huang, Efficiently loading⁴⁰Ca⁺-²⁷Al⁺ion crystal using sympathetic cooling and pulsed laser ablation, Rev. Sci. Instrum. 93, 113201 (2022).

[9] K. Cui, J. Valencia, K. T. Boyce, E. R. Clements, D. R. Leibrandt, and D. B. Hume, Scalable Quantum Logic Spectroscopy, Phys. Rev. Lett. 129, 193603 (2022).

[10] K. Cui, S. Chao, C. Sun, S. Wang, P. Zhang, Y. Wei, J. Yuan, J. Cao, H. Shu, and X. Huang, Evaluation of the systematic shifts of a⁴⁰Ca⁺-²⁷Al⁺optical clock, Eur. Phys. J. D 76, 140 (2022).

[11] Cao, J.; Yuan, J.; Wang, S.; Zhang, P.; Yuan, Y.; Liu, D.; Cui, K.; Chao, S.; Shu, H.; Lin, Y.; Cao, S.; Wang, Y.; Fang, Z.; Fang, F.; Li, T.; Huang, X., A compact, transportable optical clock with 1×10⁻¹⁷uncertainty and its absolute frequency measurement, Appl. Phys. Lett. 120, 054003 (2022).

[12] J.-B. Yuan, J. Cao, K.-F. Cui, D.-X. Liu, Y. Yuan, S.-J. Chao, H.-L. Shu, and X.-R. Huang, Suppression of servo error uncertainty to 10^-18level using double integrator algorithm in ion optical clock, Chinese Phys. B (2021).

[13] E. R. Clements, M. E. Kim, K. Cui, A. M. Hankin, S. M. Brewer, J. Valencia, J.-S. Chen, C.-W. Chou, D. R. Leibrandt, and D. B. Hume, Lifetime-Limited Interrogation of Two Independent²⁷Al⁺Clocks Using Correlation Spectroscopy, Phys. Rev. Lett. 125, 243602 (2020).

[14] S.-J. Chao, K.-F. Cui, S.-M. Wang, J. Cao, H.-L. Shu, and X.-R. Huang, Observation of¹S₀->³P₀Transition of a⁴⁰Ca⁺-²⁷Al⁺Quantum Logic Clock, Chinese Phys. Lett. 36, 120601 (2019).

[15] K. Cui, J. Shang, S. Chao, S. Wang, J. Yuan, P. Zhang, J. Cao, H. Shu, and X. Huang, Sympathetic sideband cooling of a⁴⁰Ca⁺-²⁷Al⁺pair toward a quantum logic clock, J. Phys. B: At. Mol. Opt. Phys. 51, 045502 (2018).

[16] J. Shang, J. Cao, K. Cui, S. Wang, P. Zhang, J. Yuan, S. Chao, H. Shu, and X. Huang, A compact, sub-Hertz linewidth 729nm laser for a miniaturized⁴⁰Ca⁺optical clock, Optics Communications 382, 410 (2017).

[17] J. Cao, P. Zhang, J. Shang, K. Cui, J. Yuan, S. Chao, S. Wang, H. Shu, and X. Huang, A compact, transportable single-ion optical clock with 7.8×10⁻¹⁷systematic uncertainty, Appl. Phys. B 123, 112 (2017).

[18] P. Zhang, J. Cao, H. Shu, J. Yuan, J. Shang,K. Cui, S. Chao, S. Wang, D. Liu, and X. Huang, Evaluation of blackbody radiation shift with temperature-associated fractional uncertainty at 10^-18level for⁴⁰Ca⁺ion optical clock, J. Phys. B: At. Mol. Opt. Phys. 50, 015002 (2016).

[19] J.-J. Shang, K.-F. Cui, J. Cao, S.-M. Wang, S.-J. Chao, H.-L. Shu, and X.-R. Huang, Sympathetic Cooling of 40 Ca⁴⁰Ca⁺-²⁷Al⁺Ion Pair Crystal in a Linear Paul Trap, Chinese Phys. Lett. 33, 103701 (2016).

[20] J. Cao, X. Tong, K.-F. Cui, J.-J. Shang, H.-L. Shu, and X.-R. Huang, Simulation and Optimization of Miniature Ring-Endcap Ion Traps, Chinese Phys. Lett. 31, 043701 (2014).