| 序号 | 文章 |
| 1 | Qu J F, Benz S P, Rogalla H, Tew W L, White D R and Zhou K L. Johnson noise thermometry. Measurement Science and Technology, 2019, 30(11): 112001-26. |
| 2 | X. Liu, Z. Jiang, J. Qu, et. Al., Rabi resonances in buffer-gas-filled Cs-vapor cells for SI-traceable microwave magnetic field detection, IEEE Trans. on Instr. Meas., 2019, Early access |
| 3 | Z. Song, H. Liu, X. Liu, et al., Rydberg-atom-based digital communication using a continuously tunable radio-frequency carrier. Optics Express, 27(6), 8848–8857, 2019 |
| 4 | Zhou K L, Qu J F, Zhao J T, Xu X and Shi Yang. Behavior modeling of the amplifier nonlinearity with the AC Josephson voltage standard. IEEE Transactions on Instrumentation and Measurement, 2019, 68(6): 1990-1995. |
| 5 | Y. Pan, J. Qu et.al., Cesium atomic Doppler broadening thermometry for room temperature measurement, Chinese Optics Letters, 17(6), 060201(2019). |
| 6 | 张杰, 宋振飞, 李君, 邹海洋, 张万锋, and 刘争, “基于里德堡原子的微波功率精密测量,” 计量学报, vol. 40, no. 5, pp. 749–754, 2019. |
| 7 | White D R, Qu J F. Frequency-response mismatch effects in Johnson noise thermometry. Metrologia, 2018, 55(1): 38-49. |
| 8 | Fuyu Sun, Zhiyuan Jiang, Jifeng Qu, Zhenfei Song, Jie Ma, Dong Hou and Xiaochi Liu, Tuable microwave magnetic field detection based on Rabi resonance with a single cesium-rubidium hybrid vapor cell, Appl. Phys. Lett., 2018, 113, 164101 |
| 9 | Xiaochi Liu, Zhiyuan Jiang, Jifeng Qu, Dong Hou, Xianhe Huang and Fuyu Sun, Microwave magnetic field detection based on Cs vapor cell in free space, Rev. Sci. Instr., 2018, 89 (6) |
| 10 | Qixia Wang,Zhendong Zhu et al, Angle-tolerant hybrid plasmonic blue filter with polarization-insensitivity and high transmission. Optics Communications, 2018, 427(15), 457-461 |
| 11 | W. Zhang, Z. Song, H. Mu, and S. Bao, “Depolarization effect of a vapor cell in atom-based radio-frequency electric field measurement,” Jpn. J. Appl. Phys., vol. 57, no. 9, p. 090310, Sep. 2018. |
| 12 | Z. Song et al., “Field Distortion and Optimization of a Vapor Cell in Rydberg Atom-Based Radio-Frequency Electric Field Measurement,” Sensors, vol. 18, no. 10, p. 3205, 2018. |
| 13 | L. Zhang, J. Liu, Y. Jia, H. Zhang, Z. Song, and S. Jia, “Vapor cell geometry effect on Rydberg atom-based microwave electric field measurement,” Chinese Phys. B, vol. 27, no. 3, p. 033201, 2018. |
| 14 | Zhendong Zhu, Qixia Wang, et al. Active coherent control of nanoscale light confinement: Modulation of plasmonic modes and position of hotspots for surface-enhanced Raman scattering detection. Nano Research, 2017,10(9), 2934–2943 |
| 15 | Qu J F, Benz S P, Coakley K, Rogalla H, Tew W L, White D R, Zhou K L and Zhou Z Y. An improved electronic determination of the Boltzmann constant by Johnson noise thermometry. Metrologia, 2017, 54(4): 549-558. |
| 16 | Zhou K L, Qu J F and Zhou Z Y. Nonlinear distortion analysis for multisine excitation constrained by power spectral density. Journal of Measurement Science and Instrumentation, 2016, 7(4): 350-357. |
| 17 | Qu J F, Benz S, Pollarolo A, Rogalla H, Tew W, White D and Zhou K L. Improved electronic measurement of the Boltzmann constant by Johnson noise thermometry. Metrologia, 2015, 52(5): s242-s256. |
| 18 | Zhou K L, Qu J F and Benz S. Zero-compensation method and reduced inductive voltage error for the AC Josephson voltage standard. IEEE Transactions on Applied Superconductivity, 2015, 25(5): 1400806. |
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