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Wang BoAssociate Professor

Institute of Instrument Science and Technology

Telephone:+86 010 62798368

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博士,副教授,博士生导师


2010年至今在清华大学精密仪器系工作,主要从事时间频率精密测量及应用领域的理论和实验研究。现任精仪系党委委员,精仪系仪器所副所长,光子测控技术教育部重点实验室副主任,SKA Consultant Leads committee member。美国光学学会(OSA) Senior member, IEEE Senior member,美国光学工程学会(SPIE)会员。


Educational Experience

Work Experience

  • 1998.9 ~ 2002.7

    Department of Physics, Shanxi University, Bachelor

  • 2002.9 ~ 2007.7

    Institute of Opto-Electronics, Shanxi University, PhD.

  • 2007.7 ~ 2010.7

    Max Planck Institute for Science of Light, Germany, Postdoctor

  • 2010.8 ~ 2012.12

    Department of Precision Instrument, Tsinghua University, Research Associate

  • 2012.12 ~ 2016.7

    Department of Precision Instrument of Tsinghua University, Associate research fellow

  • 2016.8 ~ Now

    Department of Precision Instrument of Tsinghua University, Associate Professor

Research Group

王波团队

Research Field

1. High-precision time, frequency and phase synchronization network technology
2. Application of High-precision time and frequency synchronization technique in radio astronomical observations
3. Distributed timekeeping clock group based on time and frequency synchronization network
4. Synchronization and Timing of the International Large Facility-Square Kilometre Array (SKA)

Research projects:
1. Frequency dissemination and synchronization of the Square Kilometre Array telescope, Program of International S&T Cooperation, 2016YFE0100200, 2016/12-2018/12, presided over
2. Fiber based frequency dissemination instrument, National Key Scientific Instrument and Equipment Development Project (2013YQ09094303) 2013/8-2019/9, presided over
3. Beijing Young Talents Program, 2013/01-2015/12, presided over
4. Precision Spectrum of trapped ions, National Key Projectof Research and Development, 2010CB922901, 2010/1--2014.8, participating

Publications

2025

107.Guan Wang, Dongqi Song, Zhongwang Pang, Fangmin Wang, Hongfei Dai, Wenlin Li and Bo Wang*, Laser interferometry for high-speed railway health inspection using telecom fiber along the line, Nature Communications 16: 4129,2025.

106.Wenlin Li, Zhongwang Pang, Hongfei Dai, Chunyi Li, and Bo Wang*, Hybrid fiber-based frequency dissemination and vibration sensing system, Optics Letters, 50(5) 1544-1547 (2025).


2024

104.Zhongwang Pang, Guan Wang, Fangmin Wang, Hongfei Dai, Wenlin Li and Bo Wang*, Fiber-based distributed sensing laser interferometer enabled by the mirror-image correlation method. Advanced Photonics Nexus, 2024, 3(6):066007

103.Dongqi Song, Guan Wang, Zhongwang Pang, and Bo Wang*, An underground fiber cable identification method based on laser interferometer, IEEE Journal of Lightwave Technology, 42(23): 8360-8365, 2024.

102.Fangmin Wang, Wenlin Li, Hongfei Dai, Chunyi Li, Jianhua Zhou, Shenhui Xue and Bo Wang*. A Real-time Performance Improvement Method for Composite Time Scale, Chinese Physics B, 33(9), 090601, 2024.

100.Chunyi Li, Zhongwang Pang, Guan Wang, Fangmin Wang, Hongfei Dai, Wenlin Li, Bo Wang*, A Digital Phase Resolving Method for Fiber Optic Sensing, IEEE Journal of Lightwave Technology, 42(20): 7384-7390, 2024

100.Hongfei Dai, Yufeng Chen, Wenlin Li, Fangmin Wang, Guan Wang, Zhongwang Pang, Bo Wang*, A Tampering Risk of Fiber-Based Frequency Synchronization Networks, IEEE Transactions on Instrumentation and Measurement, 73, 5503408, 2024.

99.Hongfei Dai, Dongqi Song, Wenlin Li, Guan Wang, Zhongwang Pang, Chunyi Li, and Bo Wang*, Hybrid fiber-based time synchronization and vibration detection system, Opt. Lett. 49, 3372-3375 (2024)

98.陈雨锋, 王波. 光纤时间频率同步技术及应用. 仪器仪表学报,45(2): 47-62, 2024.

97.Wenlin Li, Yufeng Chen, Hongfei Dai, Fangmin Wang, Bo Wang*. Phase Noise Control of the Fiber-Based Frequency Dissemination System. IEEE Transactions on Instrumentation and Measurement,73,5502307,2024.

96.Fangmin Wang, Yufeng Chen, Jianhua Zhou, Yuting Lin, Jun Yang, Bo Wang* and Lijun Wang. A Step to the Decentralized Real-time Timekeeping Network. Chinese Physics B, 33(1), 010702, 2024.


2023

95.Yufeng Chen; Hongfei Dai; Bo Wang*, Long-Haul Fiber-Optic Time and Frequency Synchronization. 2023 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFCS) (DOI: 10.1109/EFTF/IFCS57587.2023.10272096), 2023.

94.Guan, Wang; Zhongwang, Pang; Fangmin, Wang; Yufeng, Chen; Hongfei, Dai; Bo, Wang*, Traffic Vibration Localizing and Analyzing Using Urban Fiber Network(CLEO 2023), (INSPEC:23788022), 2023

93.Xiaobin Wang*, Yuanxi Yang, Yuting Lin, Bo Wang and Chunhao Han. Resilient evaluation algorithm of caesium fountain clock based on robust adaptive observation model. Physica Scripta, 98, 115411, 2023.

92.Xiaobin Wang*, Yuanxi Yang, Bo Wang, Yuting Lin and Chunhao Han. Resilient timekeeping algorithm with multi‑observation fusion Kalman filter. Satellite Navigation, 4, 25, 2023.

91.Fangmin Wang, Yufeng Chen, Jianhua Zhou, Yuting Lin, Jun Yang, Bo Wang* and Lijun Wang. A Step to the Decentralized Real-time Timekeeping Network. Chinese Physics B, 10.1088/1674-1056/acfa88, 2023.

90.Yufeng Chen, Hongfei Dai, Wenlin Li, Fangmin Wang, Bo Wang* and Lijun Wang. Time Reversal Enabled Fiber-Optic Time Synchronization. IEEE Transactions on Instrumentation and Measurement, 72, 5503508, 2023.

89.Bo Wang*, Yufeng Chen, Guan Wang. New opportunities with fiber optic networks——time-frequency synchronization and sensing. Physics, 52(7): 482-492,2023.

88.Guan Wang, Zhongwang Pang, Fangmin Wang, Yufeng Chen, Hongfei Dai, Bo Wang*. Urban Fiber based Laser Interferometry for Traffic Monitoring and Analysis. Journal of Lightwave Technology, 41(1): 347-354, 2023.


2022

87.Guan Wang, Zhong Wang Pang, Fangmin Wang, Yufeng Chen, Hongfei Dai and Bo Wang*. Time Shifting Deviation Method Enhanced Laser Interferometry: Traffic Vibration Localizing and Analyzing Using an Urban Fiber Link. in Proc. Fio-LS 2022.

86.Yufeng Chen, Hongfei Dai, Hongwei Si, Fangmin Wang, Bo Wang*, and Lijun Wang. Long-haul High Precision Frequency Dissemination based on Dispersion Correction. IEEE Transactions on Instrumentation and Measurement, 71,5503207,2022.

85.Haiqing Hao, Zhongwang Pang, Guan Wang, Bo Wang*. Indoor optical fiber eavesdropping approach and its avoidance. Optics Express, 30(20):36774-36782, 2022.

84.Bo Wang, Fangmin Wang, Guan Wang, Zhongwang Pang, Bohan Zhang. Using Fiber Network to Realize Synchronization, Timekeeping and Vibration Sensing. IEEE Summer Topicals Meeting Series (SUM), July. 2022.

83.Guan Wang, Zhongwang Pang, Bohan Zhang, Fangmin Wang, Yufeng Chen, Hongfei Dai, Bo Wang* and Lijun Wang, Time shifting deviation method enhanced laser interferometry: ultrahigh precision localizing of traffic vibration using urban fiber link, Photonics Research, 10 (2): 433-443, 2022.

82.Zhongwang Pang, Guan Wang, Bo Wang* and Lijun Wang. Comparison between Time Shifting Deviation and Cross-correlation Methods. Journal of Lightwave Technology, 40 (9): 3003-3009, 2022.

81.Bohan Zhang, Wang Guan, Zhongwang Pang, Bo Wang*. Epicenter localization using forward-transmission laser interferometry. Optics Express, 30(13): 24020-24030, 2022.

80.An optical fiber time synchronization method, device and electronic device, Patent number CN202210532171.3


2021

79.Y. Chen, B. Wang, L. Wang, K. Grainge, R. Oberland, R. Whitaker, A. Wilkinson. Integrated Dissemination System of Frequency, Time and Data for Radio Astronomy. IEEE Photonics Journal, 13(1): 1-7, 2021.

78.Guan Wang, Hongwei Si, Zhongwang Pang, Bohan Zhang, Haiqing Hao, BoWang*. Noise analysis of the fiber based vibration detection system. Optics Express, 29(4): 5588-5597, 2021.

77.A method and device for estimating time delay based on time shift deviation, Patent number ZL202110940053.1

76.Dispersion compensation method, device and system for long distance frequency transmission, Patent number ZL202110051021.6


2020

75.H.W. Si, B. Wang, F.M. Wang, Y.G. Chen, L.J. Wang. Absolute phase synchronization over optical fiber. Optics Express, 4: 4603-4610, 2020.


2019

74.Y.C. Guo, B. Wang, F.M. Wang, F.F. Shi, A.M. Zhang, X. Zhu, J. Yang, K.M. Feng, C.H. Han, T.C. Li, L.J. Wang. Real-time free-running time scale with remote clocks on fiber-based frequency network. Metrologia, 56: 045003, 2019.

73.Guo Y C , Wang B , Wang F M , et al. Beijing Time and Frequency Network and Derived Real-Time Time Scale[C]// 2019 Joint Conference of the IEEE International Frequency Control Symposium anEuropean Frequency and Time Forum (EFTF/IFCS). IEEE, 2019.


2018

72.Y.C. Guo, B. Wang*, H.W. Si, Z.W Cai, A.M. Zhang, X. Zhu, J. Yang, K.M. Feng, C.H. Han, T.C. Li, L.J. Wang. Correlation measurement of co-located hydrogen masers. Metrologia 55: 631–636, 2018.

71.X. Zhu, B. Wang*, Y.C. Guo, Y.B. Yuan, Romeo Gamatham, Bruce Wallace, Keith Grainge, L.J. Wang. Robust fiber-based frequency synchronization system immune to strong temperature fluctuation, Chinese Optics Letters. 16: 010605, 2018.

70.H. W. Si, B. Wang*, J. W. Dong, L. J. Wang. Accurate self-calibrated fiber transfer delay measurement. Review of Scientific Instruments, 89: 083117, 2018.

69.Yichen Guo, Bo Wang*, Jingwen Dong, Hongwei Si, Lijun Wang. “Correlation Measurement of Co-Located Hydrogen Masers Using Fiber-Based Frequency Synchronization Network”, Precise Time and Time Interval Systems and Application, Reston, VA, USA, 2018.1.29-2018.2.1.

68.Hongwei Si, Bo Wang*, Jingwen Dong, Lijun Wang. “Accurate Signal Transmission Delay Measurement in Optical Fibers with Self-calibration Configuration”, 2018 IEEE International Frequency Control Symposium, Olympic Valley, California, USA, 2018.5.21-2018.5.24.


2017

67.Yi-Bo Yuan, Bo Wang*, Chao Gao and Li-Jun Wang. Fiber-based multiple access timing signal synchronization technique. Chin. Phys. B, 26(4), 040601, 2017.

66.Yi-Bo Yuan, Bo Wang*, Li-Jun Wang. Fiber-based joint time and frequency dissemination via star-shaped commercial telecommunication network. Chin. Phys. B, 26(8):080601, 2017.

65.Xu Yuan, Bo Wang*. Using single wavelength light to improve the synchronization accuracy of the White Rabbit system. Chinese Optics Letters, 15(10), 101202, 2017.

64.Jingwen Dong, Bo Wang*, Hongwei Si, Lijun Wang. “Multichannel precision time delay measurement in optical fibers”, Proceedings of 2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFC 2017), 98-99, Besançon, France, 2017.7.9-2017.7.13.

63.Xu Yuan, Bo Wang*. “A Novel Synchronization Method for WR System”, Proceedings of 2017 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFC 2017), 91-94, Besançon, France, 2017.7.9-2017.7.13.

62.Yichen Guo, Bo Wang*, Hongwei Si, Jingwen Dong, Lijun Wang. “Formation of a Real-Time Time Scale with Fiber-Based Frequency Transfer Network”, Proceedings of 2017 Conference on Lasers and Electro-Optics (CLEO 2017), 1-2, San Jose, California, USA, 2017.5.14-2017.5.19.

61.Jingwen Dong, Bo Wang*, Hongwei Si, Lijun Wang. “High Precise Time Delay Measurement in Optical Fiber”, Proceedings of China Satellite Navigation Conference (CSNC 2017), 553-561 ,Shanghai, China, 2017.5.23-2017.5.25.

60.Yichen Guo, Bo Wang*, Yibo Yuan, Lijun Wang. “Optimized 1f-2f fiber-based frequency dissemination system for practical applications in Square Kilometre Array”, China Satellite Navigation Conference (CSNC 2017), Shanghai, China, 2017.5.23-2017.5.25.

59.Yichen Guo, Bo Wang*, Hongwei Si, Lijun Wang. “The correlation of co-located hydrogen masers”, CTFS2017, Xi’an, China, 2017.10.15-2017.10.17.

58.Xu Yuan, Bo Wang*. “Using Single Wavelength Light to Improve the Synchronization Accuracy of White Rabbit System”, CTFS2017, Xi’an, China, 2017.10.15-2017.10.17.

57.Grainge K*, Alachkar B, Amy Shaun, Barbosa D, Bommineni M, Boven P, Braddock R, Davis J, Diwakar P, Francis V, Gabrielczyk R, Gamatham R, Garrington S, Gibbon T, Gozzard D, Gregory S, Guo Y, Gupta Y, Hammond J, Hindley D, Horn U, Hughes-Jones R, Hussey M, Lloyd S, Mammen S, Miteff S, Mohile V, Muller J, Natarajan S, Nicholls J, Oberland R, Pearson M, Rayner T, Schediwy S, Schilizzi R, Sharma S, Stobie S, Tearle M, Wang B, Wallace B, Wang L, Warange R, Whitaker R, Wilkinson A, Wingfield N. “Square Kilometre Array: The radio telescope of the XXI century”, Astronomy Reports, 61(4), 288-296 (2017).

56.Satellite time-frequency method based on dual carrier phase real-time compensation, patent Number ZL201710430456.5.


2016

55.Xi Zhu, Bo Wang*, Chao Gao and Li-Jun Wang. Fiber-based multiple-access frequency synchronization via 1f–2f dissemination. Chin. Phys. B, 25(9):264-267, 2016.

54.J. W. Dong, B. Wang*, C. Gao, Y. C. Guo and L. J. Wang. Highly accurate fiber transfer delay measurement with large dynamic range. Optics Express, 24(2):1368, 2016.

53.J. W. Dong, B. Wang*, C. Gao, and L. J. Wang. Accurate and fast fiber transfer delay measurement based on phase discrimination and frequency measurement. Review of Scientific Instruments, 87, 093102, 2016.

52.Chao Gao, Bo Wang*, Yibo Yuan, Xi Zhu, Lijun Wang. The field trial of the frequency dissemination system for Square Kilometre Array radio telescope. Proceedings of 2016 IEEE International Frequency Control Symposium (IFCS 2016), New Orleans, LA, USA, 2016.5.9-2016.5.12.

51.Xi Zhu, Bo Wang*, Chao Gao, Yibo Yuan, Jingwen Dong, Lijun Wang. Optimized 1f-2f Actively Compensated Frequency Synchronization. 2016 European Frequency and Time Forum (EFTF 2016), Univ York, York, England, 2016.4.4-2016.4.7.

50.Jingwen Dong, Bo Wang*, Chao Gao, Yichen Guo, and Lijun Wang. Highly accurate multichannel fiber transfer delay measurement. Proceedings of 2016 Conference on Lasers and Electro-Optics (CLEO 2016), SM3P.5, San Jose, California, USA, 2016.6.5-2016.6.10.

49.A system and method for measuring transmission delay and transmission distance, Patent Number 201610556896.0


2015

48.B. Wang, X. Zhu, C. Gao, Y. Bai, J. W. Dong and L. J. Wang. Square Kilometre Array Telescope—Precision Reference Frequency Synchronisation via 1f-2f Dissemination. Scientific Reports, 5:13851, 2015.

47.C. Gao, B. Wang*, X. Zhu, Y. B. Yuan, and L. J. Wang*. Dissemination stability and phase noise characteristics in a cascaded, fiber-based long-haul radio frequency dissemination network. Review of Scientific Instruments, 86, 093111, 2015.

46.J. Miao, B. Wang*, Y. Bai, Y. B. Yuan, C. Gao, and L. J. Wang*. Portable microwave frequency dissemination in free space and implications on ground-to-satellite synchronization. Review of Scientific Instruments, 86, 054704, 2015.

45.Yu Bai, Bo Wang*, Chao Gao, Jing Miao, Xi Zhu, and Li jun Wang**. Fiber-based radio frequency dissemination for branching networks with passive phase-noise cancelation. Chinese Optics Letters, 13(6), 061201, 2015.

44.Xi Zhu, Bo Wang, Chao Gao, Jingwen Dong, Lijun Wang. Application of Ultra-stable Frequency Synchronization in the Square Kilometer Array. Acta Metrologica Sinica, 36(6A): 116, 2015.

43.Bo Wang*, Xi Zhu, Yu Bai, Chao Gao, Li jun Wang. Actively and passively compensated RF frequency disseminations on branching fiber network. Proceedings of 2015 Joint Conference of the IEEE International Frequency Control Symposium and the European Frequency and Time Forum (FCS 2015),747-748, Denver, CO, USA, 2015.4.12-2015.4.16.

42.Chao Gao, Bo Wang*, Xi Zhu, Tianchu Li, Lijun Wang. Investigating the correlation between hydrogen-maser clocks in the same place. Proceedings of 2015 Joint Conference of the IEEE International Frequency Control Symposium and the European Frequency and Time Forum (IFCS 2015), 562-564, Denver, CO, United States, 2015.4.12-2015.4.16.

41.Jingwen Dong, Bo Wang*, Jing Miao, Lijun Wang. High Precise Time Delay Measurement in Optical Fiber. China Time and Frequency Symposium (CTFS 2015), Beijing, China, 2015.9.15.

40.Yibo Yuan, Bo Wang, Chao Gao, Lijun Wang. Research on Multiple-access fiber based time transfer. CTFS, Beijing, 2015.9.15.


2014

39.Chao Gao, Bo Wang*, Yu Bai, Jing Miao, Xi Zhu, Tianchu Li, Lijun Wang. Fiber Based Time and Frequency Synchronization System. Science & Technology Review, 32(34): 41-46, 2014.

38.Chao Gao, Bo Wang*, Xi Zhu, Jing Miao, Yu Bai, Tianchu Li, Lijun Wang. The three corner hat measurement of three hydrogen masers in remote locations via fiber based frequency synchronization network. Proceedings of 2014 European Frequency and Time Forum (EFTF 2014), 259-261, Neuchatel, Switzerland, 2014.6.23-2014.6.26.

37.Jing Miao, Bo Wang*, Chao Gao, Yu Bai, Xi Zhu, Lijun Wang. Progress of ultra-stable frequency dissemination and synchronization in free space. Proceedings of 2014 European Frequency and Time Forum (EFTF 2014), 314-316, Neuchatel, Switzerland, 2014.6.23-2014.6.26.

36.Frequency oscillator stability optimization device and method, Patent Number 201410314762.9

35.A frequency transmission system and method for compensating system postposition, Patent Number 201410141670.5

34.A signal stable phase return system and method based on frequency synchronization, Patent Number 201410190927.6


2013

33.Y. Bai, B. Wang*, X. Zhu, C. Gao, J. Miao, and L. J. Wang. Fiber-based multiple-access optical frequency dissemination. Optics Letters, 38(17):3333, 2013.

32.J. Miao, B. Wang*, C. Gao, Y. Bai, X. Zhu, and L. J. Wang*. Ultra-stable radio frequency dissemination in free space. Review of Scientific Instruments, 84, 104703, 2013.

31.Bo Wang*, Chao Gao, Weiliang Chen, Yu Bai, Jing Miao, Xi Zhu,Tianchu Li and Lijun Wang. Fiber Based Time and Frequency Synchronization System. China Satellite Navigation Conference (CSNC) 2013 Proceedings, 245(34):349-356,2013.

30.C. Gao, B.Wang*, X. Zhu, J. Miao, Y. Bai, T. C. Li, and L. J.Wang. Progress of the Beijing regional time and frequency network. Lasers and Electro-Optics. IEEE, 2013:JW2A.89.

29.Y. Bai, B. Wang*, C. Gao, W.L. Chen, J. Miao, X. Zhu, and L.J. Wang. Fiber-Based Multiple-Access Ultrastable Radio and Optical requency issemination. European Frequency and Time Forum and International Frequency Control Symposium. IEEE, 2013:10.14-10.17.

28.C. Gao, B. Wang*, X. Zhu, J. Miao, Y. Bai, W.L. Chen, T. C. Li, and L. J. Wang. The progress of Fiber Based Time and Frequency Synchronization System in Beijing Area. China Time and Frequency Symposium (CTFS), B1, Yan’an, 2013.

27.Jing Miao, Bo Wang*, Chao Gao, Yu Bai, et al. Ultra-stable Frequency Dissemination and Synchronization. China Time and Frequency Symposium (CTFS), B185, Yan’an, 2013.

26.Yu Bai, Bo Wang*, Jing Miao, Chao Gao, Xi Zhu, Lijun Wang*. Fiber Based Multiple-Access Optical Frequency Dissemination. China Time and Frequency Symposium (CTFS), B15, Yan’an, 2013.

25.Shiguang Wang, Jianwei Zhang*, Zhengbo Wang, Bo Wang, Weixin Liu, Yanying Zhao and Lijun Wang. Frequency stabilization of a 214.5-nm ultraviolet laser. Chinese Optics Letters, 11(3), 031401, 2013.

24.A passive microwave frequency signal transmission system and method, Patent Number 201310449436.4

23.A microwave ranging and time synchronization system and method based on frequency synchronization, Patent Number 201310683870.9

22.A free space frequency signal transmission system based on phase compensation, Patent Number 201310467522.8


2012

21.B. Wang , C. Gao, W.L. Chen et al., Precise and Continuous Time and Frequency Synchronisation at the 5×10-19 Accuracy Level,Sci. Rep., 2, 556, 2012.

20.C. Gao, B. Wang*, W.L. Chen et al., Fiber-based multiple-access ultrastable frequency dissemination, Optics Letters,37(22):4690~4692, 2012

19.Bo Wang, Chao Gao, Weiliang Chen, et al. Precise time and frequency synchronization at the 5×10-19 level. ISCAP-V (International Symposium o Cold Atom Physics), 57, The Three Gorges, 2012.

18.B. Wang*, C. Gao, W.L. Chen, J. Miao, Y. Bai, T.C. Li, and L.J. Wang. Fiber-Based Time and Frequency Dissemination between THU and NIM. Frequency Control Symposium. IEEE, 2012:1-4.

17.B. Wang*, 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. Lasers and Electro-Optics. IEEE, 2012:1-2.

16.C. Gao, Bo Wang, Y. Bai, J. Miao, and L.J. Wang. The progress of indium ion optical frequency Standard. The 5th international symposium on cold atom physics, 58, the three Gorges, 2012.6.23-2012.6.27.


2011

15.B.Wang, 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, 19(17):16438-47, 2011.

14.Bo Wang, Chao Gao, Weixin Liu, Yu Bai, Jing Miao, Lijun Wang. CPT optical frequency atomic clock based on barium ion. National Optoelectronics and Quantum Electronics Technology Conference, 2011.

13.Bo Wang, Gao Chao, Weiliang Chen, Jing Miao, Xi Zhu, Tianchu Li, Lijun Wang. High stability transmission and comparison of atomic time signals National Academic Conference on time and frequency, 2011.

12.Patent: Atomic time signal receiving system and method, Patent Number 201110270288.0

11.Atomic time signal transmission system and transmission method, Patent Number 201110186493.9


2010

10.B. Wang, J. W. Zhang, Z. H. Lu and L. J. Wang. Direct measurement of micromotion speed in a linear quadrupole trap. Journal of Applied Physics, 108, 013108, 2010.


2007

9.Bo Wang, Yanxu Han, Jintao Xiao, Xudong Yang, Chunhong Zhang, Hai Wang*, Min Xiao,and Kunchi Peng. Preparation and determination of spin-polarized states in multi-Zeeman-sublevel atoms. Physical Review A, 051801, 2007.


2006

8.Bo Wang, Yanxu Han, Jintao Xiao, Xudong Yang, Changde Xie, and Hai Wang. Multi-dark-state resonances in cold multi-Zeeman-sublevel atoms. Optics Letters, 31(24):3647-9, 2006.

7.Bo Wang, Shujing Li, Jie Ma, Hai Wang*, K. C. Peng,and Min Xiao. Controlling the polarization rotation of an optical field via asymmetry in electromagnetically induced transparency. Physical Review A, 73, 051801, 2006.

6.Shujing Li, Bo Wang, Xudong Yang, Yanxu Han, Hai Wang*, Min Xiao and K. C. Peng. Controlled polarization rotation of an optical field in multi-Zeeman-sublevel atoms. Physical Review A, 74, 033821, 2006.


2005

5.Bo Wang, Shujing Li, Haibin Wu, Hong Chang, Hai Wang* and Min Xiao. Controlled release of stored optical pulses in an atomic ensemble into two separate photonic channels. Physical Review A, 72, 043801, 2005.

4.Bo Wang, Shujing Li, Jingqin Yao, Jie Ma, Feng Peng, Gang Jiang and Hai Wang. Experimental observation of the linewidth narrowing of electromagnetically induced transparency resonance. Chinese Optics Letters, 3(8):486-489, 2005.

3.Bo Wang, Shujing Li, Hong Chang, Haibin Wu, Changde Xie, Hai Wang*. Influence of single photon frequency detuning on optical deceleration in three-level atomic system. Journal of physics, 54 (9): 4136-4140, 2005

2.Haibin Wu, Jingqin Yao, Hong Chang, Jie Ma, Bo Wang, Hai Wang*. “A Simple Experiment System for Laser Cooling and Trapping ~(87)Rb Atom”. Acta Sinica Quantum Optica, 11(2): 79-83, 2005.


2004

1.Bo Wang, Jingqin Yao, Haibin Wu, Yun Shen, Changde Xie, Hai Wang*. Linewidth narrowing and continuous frequency tuning of semiconductor lasers. Journal of quantum optics, 10 (02): 82-86, 2004.


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Email address: bo.wang@tsinghua.edu.cn

Office: Room 3516, Building 9003, Department of Precision Instruments, Tsinghua University.

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