论文专利

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论文专利

期刊论文

2024年

79. J. Chang, Q. Wu, Z. Wang, J. Zhang, Q. Wei, W. Yuan, D. Zhu, J. Zhang, X. Li, X. Wu, Z. Lu, and J. Zhang, A space-borne ultra-stable laser system with an excellent long-term frequency stability for gravitational wave detection, Classical and Quantum Gravity41, 185003 (2024).

78.Z. Zhang, W. You, X. Liu, H. Liu, W. Yuan, J. Zhang, K. Deng, and Z. Lu, High performance molecular iodine optical reference using an unsaturated vapor cell, Review of Scientific Instruments95, 063003 (2024).

77. Z. Wang, Z. Ma, W. Wei, J. Chang, J. Zhang, Q. Wu, W. Yuan, K. Deng, Z. Lu, and J. Zhang, Noise characterization of an ultra-stable laser for optical clocks, Review of Scientific Instruments95, 053002 (2024).

76. Z. Ma, K. Deng, Z. Wang, W. Wei, P. Hao, H. Zhang, L. Pang, B. Wang, F. Wu, H. Liu, W. Yuan, J. Chang, J. Zhang, Q. Wu, J. Zhang, and Z. Lu, Quantum-logic-based25Mg+-27Al+optical frequency standards for the redefinition of the SI second, Physical Review Applied21, 044017 (2024).

2023年

75. Z. Zhang, Z. Wang, H. Liu, W. Yuan, W. You, J. Zhang, K. Deng, and Z. Lu,An ultra-stable laser based on molecular iodine with a short-term instability of 3.3×10^(-15) for spaced based gravity missions, Classical and Quantum Gravity40, 225001 (2023).

74. L. He, J. Zhang, Z. Wang, J. Chang, Q. Wu, Z. Lu, and J. Zhang, Ultra-stable cryogenic sapphire cavity laser with an instability reaching 2×10^(−16) based on a low vibration level cryostat, Optics Letters48, 2519-2522 (2023).

73. P. Hao, K. Deng, F. F. Wu, Z. Y. Ma, W. Z. Wei, W. H. Yuan, Y. B. Du, H. L. Liu, H. X. Zhang, L. R. Pang, B. Wang, J. Zhang, and Z. H. Lu. Precision measurement of 25Mg+-ion D1 and D2 transition frequencies, Physical Review A107, L20803 (2023).

72. F. Wu, K. Deng, and Z. Lu, Polarizabilities for the low-lying triplet states of He-like Be III”, J. Quant. Spectrosc. Radiat. Transf.295, 108414 (2023).

71. X. Feng, K. Liu, Y. Chen, H. Zhang, Z. Li, F. Zhang, Z. Lu, and J. Zhang, Passive resonant laser gyroscope with improvement of the suppression of residual amplitude modulation effects through correlation analysis, Meas. Sci. Technol.34, 045201 (2023).

70. X. Feng, K. Liu, Y. Chen, H. Zhang, Z. Li, F. Zhang, K. U. Schreiber, Z. Lu, and J. Zhang, Three-wave differential locking scheme in a 12-m-perimeter large-scale passive laser gyroscope, App. Opt.62, 1109-1114 (2023).

2022年

69. F. Wu, K. Deng, and Z. Lu, Tune-out wavelengths for 2^3S_1 state of Li^+ ion, Phys. Rev. A106, 042816 (2022).

68. W. Wei, P. Hao, Z. Ma, H. Zhang, L. Pang, F. Wu, K. Deng, J. Zhang, and Z. Lu, Measurement and suppression of magnetic field noise of trapped ion qubit, J. Phys. B: At. Mol. Opt. Phys.55, 075001(2022).

67. H. Wu, P. Wang, P. Hao, Y. Du, Y. Tan, J. Zhang, Z. Lu, and C. Shao, Time delay interferometry using laser frequency comb as the direct signal source, Opt. Lasers Eng.151, 106938 (2022).

66. 赵健, 翟雨欣, 职佳文, 叶艳霞, 吴浩煜, 张洁, 基于法布里-珀罗腔的激光模式分析, 物理实验42, 10 (2022).

65. M. Zhang, H.-M. Yu, H. Yuan, X. Wang, R. Demkowicz-Dobrzanski, and J. Liu, QuanEstimation: An open-source toolkit for quantum parameter estimation, Phys. Rev. Research4,043057(2022).

64. Q.-S. Tan, W. Wu, L. Xu, J. Liu, and Le-Man Kuang, Quantum sensing of supersensitivity for the Ohmic quantum reservoir, Phys. Rev. A106, 032602 (2022).

63. G.-L. Zhu, J. Liu, Y. Wu, and X.-Y. Lü, Quantum Magnetometer with Dual-Coupling Optomechanics, Laser & Photonics Reviews16, 202100636 (2022).

62. J. Liu, M. Zhang, H. Chen, L. Wang, and H. Yuan, Optimal Scheme for Quantum Metrology,Adv. Quantum Technol.5, 2100080 (2022).

2021年

61. J-M Le Floch, H. Shao, E. Zhong, X. Deng, and Z. Lu, Simple thermal mode to characterize dry and wet pulsed-tube cryocoolers, AIP Advances11, 125005 (2021).

60. H. Li, Y. Du, X. Yang, Y. Guo, M. Liu, W. Li, H. Liu, and Z. Lu, Optimization of Operation Parameters in a Cesium Atomic Fountain Clock Using Monte Carlo Method, IEEE Access9, 132140-132149 (2021).

59.Y. Ye, Y. Sun, L. He, Z. Wang, J. Zhang, J. Chang, Q. Wu, F. Zhang, Z. Lu, and J. Zhang, Investigation on the thermal property of a hydroxide catalysis bonded cryogenic cavity,Class. Quantum Grav.38, 195005 (2021).

58. Z. Wang, Y. Ye, J. Chang, J. Zhang, Y. Sun, L. He, Q. Wu, Z. Lu, and J. Zhang,Single step zero-thermal-expansion temperature measurement of optical reference cavities, Opt. Express29, 30567 (2021).

57. Y. Ye, L. He, Y. Sun, F. Zhang, Z. Wang, Z. Lu, and J. Zhang,Vibration Property of a Cryogenic Optical Resonator within a Pulse-Tube Cryostat, Sensors21, 4694 (2021).

56. F. Cheng, N. Jin, F. Zhang, H. Li, Y. Du, J. Zhang, K. Deng, and Z. Lu, A 532 nm molecular iodine optical frequency standard based on modulation transfer spectroscopy, Chin. Phys. B30, 050603 (2021).

55. H. Wu, Z. Zhang, S. Chen, K. Sun, J. Sun, D. Reid, Z. Lu, and J. Zhang, Development of a deep-ultraviolet pulse laser source operating at 234 nm for direct cooling of Al+ion clocks,Opt. Express29,11468-11478(2021).

54. Z. Li, K. Liu, J. Liu, Z. Lu, and J. Zhang, A proposal for phase-sensitive heterodyne detection in large-scale passive resonant gyroscopes, Opt. Express29, 9737-9748 (2021).

53. T. Zhang, B. Lu, J. Li, C. Li, H. Chang, T. Shi, Z. Lu, Role of hyperfine interaction in Landé g-factors of3P00clock states, J. Quant. Spectrosc. Radiat. Transfer.266, 107562(2021).

52. P. Liu, Y. Cao, Z. Lu, and G. Lin, Probing arbitrary Laguerre–Gaussian beams and pairs through a tilted biconvex lens, J. Opt.23, 025002(2021).

51. J. Liu, Z. Miao, L. Fu, and X. Wang, Bhatia-Davis formula in the quantum speed limit, Phys. Rev. A104, 052432 (2021).

50. Z. Zhang, L. Shao, W. Lu, Y. Su, Y.-P. Wang, J. Liu, and X. Wang, Single-photon-triggered spin squeezing with decoherence reduction in optomechanics via phase matching, Phys. Rev. A104, 053517 (2021).

49. A. Datta, R. Demkowicz-Dobrzanski, and J. Liu, Quantum multiparameter estimation and metrology—preface, J. Phys. A54, 460301 (2021).

48. Q.-S. Tan, M. Zhang, Y. Chen, J.-Q. Liao, and J. Liu, Generation and storage of spin squeezing via learning-assisted optimal control, Phys. Rev. A103, 032601 (2021).

2020年

47. W. H. Yuan, H. L. Liu, W. Z. Wei, Z. Y. Ma, P. Hao, Z. Deng, K. Deng, J. Zhang, and Z. H. Lu, In Situ Measurement of Vacuum Window Birefringence using 25Mg+ Fluorescence. J. Vis. Ex160, e61175 (2020).

46. F. Zhang, K. Liu, Z. Li, X. Feng, K. Li, Y. Ye, Y. Sun, L. He, K. U. Schreiber, J. Luo, Z. Lu and J. Zhang, 3m×3m heterolithic passive resonant gyroscope with cavity length stabilization, Class. Quantum Grav.37, 215008 (2020).

45. K. Liu, F. Zhang, Z. Li, X. Feng, K. Li, Y. Du, K. U. Schreiber, Z. Lu and J. Zhang, Noise Analysis of a Passive Resonant Laser Gyroscope, Sensors20, 5369 (2020).

44. Z. Y. Ma, H. L. Liu, W. Z. Wei, W. H. Yuan, P. Hao, Z. Deng, H. Che, Z. T. Xu, F. H. Cheng, Z. Y. Wang, K. Deng, J. Zhang, Z. H. Lu, Investigation of experimental issues concerning successful operation of quantum‐logic‐based 27Al+ ion optical clock, Appl. Phys. B126, 129 (2020).

43. Q. Hao, W. Xue, W. Li, F. Xu, X. Wang, W. Guo, P. Yun, and S. Zhang, Microwave Pulse-Coherent Technique-Based Clock With a Novel Magnetron-Type Cavity, IEEE Trans. Ultrason. Ferroelectr. Freq. Control67, 873-878 (2020).

42.Y. Cao, P. Liu, C. Hou, Y. K. Chembo, Z. Lu, and G. Lin,Transverse Patterns and Dual-Frequency Lasing in a Low-Noise Nonplanar-Ring Orbital-Angular-Momentum Oscillator, Phys. Rev. Applied13, 024067 (2020).

41. F. Zhang, K. Liu, Z. Li, F. Cheng, X. Feng, K. Li, Z. Lu and J. Zhang, Long-term digital frequency-stabilized laser source for large-scale passive laser gyroscopes,Rev. Sci. Instrum.91, 013001 (2020).

40. Y. Shao, B. Liu, M. Zhang, H. Yuan and J. Liu, Operational definition of a quantum speed limit, Phys. Rev. Research2, 023299 (2020).

39. J. Liu, H. Yuan, X.-M. Lu and X. Wang, Quantum Fisher information matrix and multiparameter estimation, J. Phys. A53, 023001 (2020).

2019年

38. W. H. Yuan, H. L. Liu, W. Z. Wei, Z. Y. Ma, P. Hao, Z. Deng, K. Deng, J. Zhang, and Z. H. Lu, A simple method for in situ measurement of vacuum window birefringence,Rev. Sci. Instrum.90, 113001 (2019).

37. W.-B. Li, Q. Hao, Y. B. Du, S. Q. Huang, P. Yun and Z. H. Lu, Demonstration of a Sub-Sampling Phase Lock Loop Based Microwave Source for Reducing Dick Effect in Atomic Clocks, Chin. Phys. Lett.36, 070601 (2019).

36. F. Cheng, K. Deng, K. Liu, H. Liu, J. Zhang and Z. H. Lu, Absolute frequency measurement of molecular iodine hyperfine transition at 534nm, J. Opt. Soc. Am. B36, 1816-1822 (2019).

35. S. Hannig, L. Peizer, N. Scharnhorst, J. Kramer, M. Stepanova, Z. T. Xu, N. Spethmann, I. D. Leroux, T. E. Mehlstaubler and P. O. Schmidt, Towards a transportable aluminium ion quantum logic optical clock, Rev. Sci. Instrum.90, 053204 (2019).

34. K. Liu, F. L. Zhang, Z. Y. Li, X. H. Feng, K. Li, Z. H. Lu, K. U. Schreiber, J. Luo and J. Zhang, Large-scale passive laser gyroscope for earth rotation sensing, Opt. Lett.44, 2732-2735 (2019).

33. Y.-L. Sun , Y.-X. Ye , X.-H. Shi, Z.-Y. Wang, C.-J. Yan, L.-L. He, Z. H. Lu and J. Zhang, A hybrid silicon-sapphire cryogenic Fabry-Perot cavity using hydroxide catalysis bonding, Class. Quantum Grav.36, 105007 (2019).

32. G. Lin, Y. Cao, Z. H. Lu and Y. K. Chembo, Spontaneous generation of orbital angular momentum crystals using a monolithic Nd:YAG nonplanar ring laser, Opt. Lett.44, 203-206 (2019).

31. Y. Che, J. Liu, X.-M. Lu and X. Wang,Multiqubit matter-wave interferometry under decoherence and the Heisenberg scaling recovery, Phys. Rev. A99, 033807 (2019).

2018年

30. W. H. Yuan, K. Deng, Z. Y. Ma, H. Che, Z. T. Xu, H. L. Liu, J. Zhang, and Z. H. Lu,Precision measurement of the light shift of25Mg+ions, Phys. Rev. A98, 052507 (2018).

29. H. Liu, W. Yuan, F. Cheng, Z. Wang, Z. Xu, K. Deng and Z. H. Lu, Ultraviolet laser spectroscopy of aluminum atoms in hollow-cathode lamp, J. Phys. B: Atomic, Molecular and Optical Physics51, 225002 (2018).

28. W. Li, Y. Du, H. Li and Z. H. Lu, Development of low phase noise microwave frequency synthesizers for reducing Dick effect of Cs fountain clocks, AIP Advances8, 095311 (2018).

27. G. Lin, Y. Cao, R. Ji, C. Hou and Z. H. Lu, Direct generation of a narrow-linewidth laguerre-Gaussian vortex laster in a monolithic nonplanar oscillator, Opt. Lett.43, 4164 (2018).

26. X. Shi, J. Zhang, X. Zeng, X. Lü, K. Liu, J. Xi, Y. Ye and Z. H. Lu, Suppression of residual amplitude modulation effects in Pound–Drever–Hall locking, Appl. Phys. B124, 153 (2018).

25. X. Yu, X. Zhao, L. Shen, Y. Shao, J. Liu and X. Wang, Maximal quantum Fisher information for phase estimation without initial parity, Opt. Express26,16292 (2018).

24. B. Chomet, J. Zhao, L. Ferrieres, M. Myara, G. Guiraud, G. Beaudoin, V. Lecocq, I. Sagnes, N. Traynor, G. Santarelli, S. Denet and A. Garnache, High-power tunable low-noise coherent source at 1.06  μm based on a surface-emitting semiconductor laser, Applied Optics57, 5224-5229 (2018).

23. J. Zhao, G. Guiraud, C. Pierre, F. Floissat, A. Casanova, A. Hreibi, W. Chaibi, N. Traynor, J. Boullet, and G. Santarelli, High-power all-fiber ultra-low noise laser, Appl. Phys. B124, 114 (2018).

22. X. Y. Zeng, Y. X. Ye, X. H. Shi, Z. Y. Wang, K. Deng, J. Zhang, and Z. H. Lu, Thermal-noise-limited higher-order mode locking of a reference cavity, Opt. Lett.43, 1690 (2018).

21. G. Lin, R. Henriet, A. Coillet, M. Jacquot, L. Furfaro, G. Cibiel, L. Larger and Y. K. Chembo, Dependence of quality factor on surface roughness in crystalline whispering-gallery mode resonators, Opt. Lett.43, 495 (2018).

20. M. A. Hosain , J.-M. Le Floch, J. Krupka and M. E. Tobar, Aggregate frequency width, nuclear hyperfine coupling and Jahn–Teller effect of Cu2+ impurity ion ESR in SrLaAlO4 dielectric resonator at 20 millikelvin, J. Phys.: Condens. Matter30, 015802 (2018).

2017年

19. G. Lin, A. Coillet and Y. K. Chembo, Nonlinear photonics with high-Q whispering-gallery-mode resonators, Adv. Opt. Photon.9, 828-890 (2017).

18. Z. T. Xu, K. Deng, H. Che, W. H. Yuan, J. Zhang, and Z. H. Lu, Precision measurement of the25Mg+ground-state hyperfine constant, Phys. Rev. A96, 052507 (2017).

17. M. A. Hosain, J.-M. Le Floch, J. Krupka and M.E. Tobar, Whispering Gallery mode ESR spectroscopy and parameters measurement in single crystal SrLaAlO4 at millikelvin temperature, Journal of Magnetic Resonance281, 209 (2017).

16. T. Zhang, L. Xie, J. Li, and Z. H. Lu, Theoretical study of the hyperfine-interaction constants and the isotope-shift factors for the 3s21S0–3s3p3,1P01transitions in Al+, Phys. Rev. A96, 012514 (2017).

15. Y. Du, W. Li, Y. Ge, H. Li, K. Deng and Z. H. Lu, Note: A high-frequency signal generator based on direct digital synthesizer and field-programmable gate array, Rev. Sci. Instrum.88, 096103 (2017).

14. J-M. Le Floch, C. Murphy, J. G. Hartnett, V. Madrangeas, J. Krupka, D. Cros, and M. E. Tobar, Frequency-temperature sensitivity reduction with optimized microwave Bragg resonators, J. Appl. Phys.121, 014102 (2017).

13. H. Che, K. Deng, Z. T. Xu, W. H. Yuan, J. Zhang, and Z. H. Lu, Efficient Raman sideband cooling of trapped ions to their motional ground state, Phys. Rev. A96, 013417 (2017).

12. J. Zhang, K. Deng, J. Luo, and Z.-H. Lu, Direct laser cooling Al+ion optical clocks, Chin. Phys. Lett.34, 050601 (2017).

2016年

11. G. P. Lin and Y. K. Chembo, Phase-locking transition in Raman combs generated with whispering gallery mode resonators, Opt. Lett.41, 3718 (2016).

10. R. Dumke, Z. H. Lu, J. Close, N. Robins, A. Weis, M. Mukherjee, G. Birkl, C. Hufnagel, L. Amico, M. G. Boshier, K. Dieckmann, W. H. Li, and T. C. Killian, Roadmap on quantum optical system, J. Opt.18, 093001 (2016).

9. 邓科, 张洁, 石晓辉, 徐泽天, 柳奎, 车煌, 陆泽晃, 基于量子逻辑技术的铝离子光频标研究进展, 中国科学: 物理学 力学 天文学46, 073004 (2016).

8. G. P. Lin, S. Diallo, J. M. Dudley, and Y. K. Chembo, Universal nonlinear scattering in ultra-high Q whispering gallery-mode resonators, Opt. Express24, 14880 (2016).

7. J.-M. Le Floch, N. Delhote, M. Aubourg, V. Madrangeas, D. Cros, S. Castelletto, and M. E. Tobar, Towards achieving strong coupling in three-dimensional-cavity with solid state spin resonance, J. Appl. Phys.119, 153901 (2016).

6. J. Zhang, X. H. Shi, X. Y. Zeng, X. L. Lü, K. Deng, and Z. H. Lu, Characterization of electrical noise limits in ultra-stable laser systems, Rev. Sci. Instrum.87, 112105 (2016).

5. J. Zhang, W. Wu, X. H. Shi, X. Y. Zeng, K. Deng, and Z. H. Lu, Design verification of large time constant thermal shields for optical reference cavities, Rev. Sci. Instrum.87, 023104 (2016).

2015年

4. K. Deng, H. Che, Y. Lan, Y. P. Ge, Z. T. Xu, W. H. Yuan, J. Zhang, and Z. H. Lu, Design of blade-shaped-electrode linear ion traps with reduced anharmonic contributions, J. Appl. Phys.118, 113106 (2015).

2014年

3. K. Deng, Y. L. Sun, W. H. Yuan, Z. T. Xu, J. Zhang, Z. H. Lu, and J. Luo, A modified model of helical resonator with predictable loaded resonant frequency and Q-factor, Rev. Sci. Instrum.85, 104706 (2014).

2013年

2. J. Zhang, Y. X. Luo, B. Ouyang, K. Deng, Z. H. Lu, and J. Luo, Design of an optical reference cavity with low thermal noise limit and flexible thermal expansion properties, Eur. Phys. J. D67, 46 (2013).

1. J. Zhang, W. H. Yuan, K. Deng, A. Deng, Z. T. Xu, C. B. Qin, Z. H. Lu, and J. Luo, A long-term frequency stabilized deep ultraviolet laser for Mg+ions trapping experiments, Rev. Sci. Instrum.84, 123109 (2013).

会议论文

7. Z. T. Xu, W. H. Yuan, X. Y. Zeng, H. Che, X. H. Shi, K. Deng, J. Zhang, and Z. H. Lu, Recent progress on the27Al+ion optical clock, Journal of Physics: Conference Series723, 012026 (2016).

6. C. H. Feng, Y. L. Sun, W. Wu, J. Zhang, J-M. Le Floch, Z. H. Lu, Investigation on the microwave cryogenic sapphire clocks, 2015 Asia-Pacific Microwave Conference (APMC), vol. 3, Nanjing, 2015.

5. Z. T. Xu, X. Y. Zeng, X. H. Shi, H. Che, K. Deng, J. Zhang, and Z. H. Lu, Towards an27Al+Ions Optical Clock, Proceedings of 2014 European Frequency and Time Forum, page 419, Neuchatel, Switzerland, 2014.

4. Y. X. Luo, B. Ouyang, X. Y. Zeng, A. Deng, C. B. Qin, K. Deng, J. Zhang, Z. H. Lu, and J. Luo, Progress Report on the Development of Ultra-stable Lasers for27Al+Optical Clocks, Proceedings of 2013 Joint UFFC, EFTF and PFM Symposium, page 385, Prague, Czech Republic, 2013.

3. K. Deng, Z. T. Xu, W. H. Yuan, C. B. Qin, A. Deng, Y. L. Sun, J. Zhang, Z. H. Lu, and J. Luo, Progress Report of an27Al+Ion Optical Clock, Proceedings of 2013 Joint UFFC, EFTF and PFM Symposium, page 383, Prague, Czech Republic, 2013.

2. K. Deng, Y. L. Sun, Z. T. Xu, J. Zhang, Z. H. Lu, and J. Luo, Design and Construction of Helical Resonators for Ion Traps, Proceedings of 2013 Joint UFFC, EFTF and PFM Symposium, page 898, Prague, Czech Republic, 2013.

1. Y. X. Luo, J. Zhang, B. Ouyang, K. Deng, Z. H. Lu, and J. Luo, Design of an Optical Reference Cavity with Flexible Thermal Expansion Tuning Properties, Proceedings of 2012 European Frequency and Time Forum, page 182, Gothenburg, Sweden, 2012.


授权专利

1. 李文兵,杜远博,李慧,陆泽晃,一种可充当真空腔体的冷原子喷泉钟微波腔,专利号:ZL20161126086.3

2. 林国平,曹娅琴,陆泽晃,一种直接产生窄线宽涡旋激光的装置,专利号:ZL201810817898.X

3. 林国平,陆泽晃,一种用于单片式光腔的内嵌型压电调节方法,专利号:ZL 201810534213.0

4. 张洁,柳奎,张风雷,陆泽晃,一种基于超稳激光的被动式激光陀螺仪,专利号:ZL201811403103.7

5. 张洁,孙云龙,叶艳霞,石晓辉,闫春杰,陆泽晃,一种粘结单晶硅和蓝宝石的方法,专利号:ZL201811466584.6

6. 李宗阳,张洁,柳奎,冯晓华,陆泽晃,一种基于相敏外差测量的被动式激光陀螺仪,专利号:ZL202010505042.6

7. 柳奎,张洁,李宗阳,冯晓华,李克,陈宇轩,张浩博,陆泽晃,基于偏振选择锁定的被动式激光陀螺仪及角速度确定方法,专利号:ZL202110024123.9

8. 张洁,张浩博,柳奎,李宗阳,冯晓华,陈宇轩,陆泽晃,一种基于临界耦合环形腔的被动式激光陀螺仪,专利号:ZL202111069692.1

9.张洁,冯晓华,柳奎,陈宇轩,陆泽晃,一种基于三环路差分锁定的被动式激光陀螺仪,专利号:ZL202211211199.3


申请专利

1. 张洁,胡忠坤,陈宇轩,柳奎,徐文杰,周敏康,程源,袁文豪,陆泽晃,一种基于原子干涉和激光干涉的三维陀螺仪,审查中,待公开。

2. 常伽陆,张洁,王志远,吴祺跃,陆泽晃,一种基于有限元仿真的振动温度不敏感超稳腔的设计,审查中,待公开。

3. 邵成刚,许茗洋,吴翰钟,罗丹,职佳文,谈玉杰,一种基于时间延迟干涉技术的测距装置和方法,审查中,待公开。

4. 邵成刚,职佳文,吴翰钟,罗丹,许茗洋,谈玉杰,一种基于光学频率梳啁啾脉冲干涉的快速绝对距离测量装置,审查中,待公开。

5. 张洁,常伽陆,吴祺跃,王志远,张静璇,何磊磊,魏强,陆泽晃,一种可变构型的零膨胀温度点可调的超稳腔结构,审查中,待公开。

6. 袁文豪,朱德源,张家瑞,李旭莹,黄鑫,陆泽晃,一种非平面环形腔激光器封装结构,审查中,待公开。

7. 袁文豪,张家瑞,黄鑫,李旭莹,朱德源,陆泽晃,一种提高非平面环形腔激光器光隔离度的方法,审查中,待公开。

8. 袁文豪,黄鑫,张家瑞,李旭莹,朱德源,陆泽晃,一种提高Nd:YAG晶体频率调谐带宽的方法,审查中,待公开。

9. 袁文豪,李旭莹,张家瑞,黄鑫,朱德源,陆泽晃,调整Nd:YAG激光器输出光偏振的波片组结构和方法,审查中,待公开。

10.邓科,张洁,庞力仁,马智宇,王彪,陆泽晃,一种基于囚禁离子的加速度传感器,审查中,待公开。

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