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2024

13.Z. Y. Hua, Y. Wang,Y. D. Tan. Detection of Rotational Doppler Frequency and Measurement With Broadened Spectrum. Ieee Transactions on Instrumentation and Measurement, 2024, 73

12.Z. Y. Hua, Y. F. Wang, Q. Wang, S. Y. Fu,Y. D. Tan. Rotational Doppler effect of vortex beam with frequency-shifted laser feedback. Optics and Lasers in Engineering, 2024, 178

11.C. Li, Z. Y. Hua, Q. Wang, L. Li, Z. C. Zhang, L. Hai, Y. D. Tan, C. Q. Gao,S. Y. Fu. Single-frequency orbital angular momentum switchable modes from a microchip laser. Optics Letters, 2024, 49(11).

10.M. F. Li, M. W. Tian, C. X. Lin, S. H. Chen, Z. P. Feng,Y. D. Tan. Microcavity Raman Laser-Based FMCW LiDAR with Enhanced Echo Sensitivity. Acs Photonics, 2024, 11(2).

9.C. X. Lin, Y. D. Tan,Q. X. Wang. Machine learning-based prediction approach for ranging resolution enhancement of FMCW LiDAR system with LSTM networks. Optics and Laser Technology, 2024, 179

8.C. X. Lin, Y. F. Wang, Z. M. Li,Y. D. Tan. All-fiber fast coherent LiDAR for ranging and velocimetry based on optical comb injection. Applied Physics Letters, 2024, 125(24).

7.J. S. Liu, X. Xu,Y. D. Tan. Tilt-to-length coupling noise suppression based on transformation of q parameters of Gaussian beams in spaceborne gravitational wave detection. Classical and Quantum Gravity, 2024, 41(6).

6.N. Sahoo, B. Sun, Y. D. Tan, K. M. Zhou,L. Zhang. A Novel Biosensor for the Detection of Glucose Concentration Using the Dual-Peak Long Period Grating in the Near- to Mid-Infrared. Sensors, 2024, 24(4).

5.Y. D. Tan,C. X. Lin. Nonlinearity Correction Technology for Light Source of FrequencyModulated Continuous-Wave Light Detection and Ranging (Invited). Laser & Optoelectronics Progress, 2024, 61(3).

4.M. W. Tian, X. Xu, S. H. Chen, Z. P. Feng,Y. D. Tan. Ultrasensitive detection of remote acoustic vibrations at 300 m distance by optical feedback enhancement. Photonics Research, 2024, 12(9).

3.X. Xu, H. S. Liu,Y. D. Tan. Verification of Laser Heterodyne Interferometric Bench for Chinese Spaceborne Gravitational Wave Detection Missions. Research, 2024, 7

2.X. Xu, J. S. Liu, H. L. Mu, Y. Li,Y. D. Tan. Six-Degrees-of-Freedom Test Mass Readout via Optical Phase-Locking Heterodyne Interferometry. IEEE Transactions on Instrumentation and Measurement, 2024, 73

1.B. R. Zhou, Y. Wang, B. Zhou, X. J. Shen,Y. D. Tan. Highly sensitive interferometry with strong anti laser jamming capability based on frequency shift optical feedback. Optics and Laser Technology, 2024, 171

2023

12.A. Amani,Y. D. Tan. Method for a deflection-type refractometer measuring the fringe shift by using linear Fresnel zone plates. Applied Optics, 2023, 62(33).

11.Z. R. Dai, J. S. Tan, K. M. Zhou, L. Zhang, X. H. Zhou,Y. D. Tan. Optical fiber SPR biosensor with frequency multiplexing compensated laser heterodyne feedback for ultrasensitive detection of fluoroquinolones. Sensors and Actuators B-Chemical, 2023, 393

10.M. F. Li, Z. R. Dai, M. W. Tian,Y. D. Tan. Intracavity dynamics-based gain-assisted sensing with microtubule Raman microlaser. Apl Photonics, 2023, 8(8).

9.M. F. Li, Y. F. Wang, Z. R. Dai,Y. D. Tan. Dynamic Evolution of Microcavity Raman Laser Subjected to Frequency-Shifted Feedback and its Application in Laser Spectrum Encoding Thermal Sensing. Ieee Journal of Selected Topics in Quantum Electronics, 2023, 29(1).

8.C. X. Lin, Y. F. Wang,Y. D. Tan. Laser Feedback FMCW Ranging System Based on Multiple-Equal-Phase-Subdivision Resampling. Journal of Lightwave Technology, 2023, 41(9)

7.J. S. Tan, Z. R. Dai, K. M. Zhou, L. Zhang, M. He, Y. D. Tan,X. H. Zhou. An Ultrasensitive and Universal Surface Plasmonic Biosensor for Detection of Micropollutants in Aquatic Environments. Environmental Science & Technology, 2023, 57(22).

6.J. S. Tan, Z. R. Dai, K. M. Zhou, L. Zhang, X. H. Zhou,Y. D. Tan. Ultrasensitive Screening of Endocrine-Disrupting Chemicals Using a Surface Plasmon Resonance Biosensor with Polarization-Compensated Laser Heterodyne Feedback. Analytical Chemistry, 2023, 95(22).

5.M. W. Tian, M. F. Li,Y. D. Tan. A Polarization-Modulated Laser Frequency-Shifted Feedback System Reducing the Parasitic Noise Intensity by About Three Orders of Magnitude. Journal of Lightwave Technology, 2023, 41(18).

4.M. W. Tian,Y. D. Tan. Intracavity-dynamics-based optical phase amplifier with over tenfold amplification. Photonics Research, 2023, 11(11).

3.Y. F. Wang, Z. Y. Hua, J. C. Shi, Z. R. Dai, J. G. Wang, L. Y. Shao,Y. D. Tan. Laser Feedback Frequency-Modulated Continuous-Wave LiDAR and 3-D Imaging. Ieee Transactions on Instrumentation and Measurement, 2023, 72

2.X. Xu, Z. R. Dai,Y. D. Tan. A Dual-Beam Differential Method Based on Feedback Interferometry for Noncontact Measurement of Linear and Angular Displacement. Ieee Transactions on Industrial Electronics, 2023, 70(6).

1.B. R. Zhou, B. Zhou, X. J. Shen,Y. D. Tan. Transverse dynamical response of laser frequency-shifted feedback with mode mismatch. Optics and Lasers in Engineering, 2023, 169

2022

6.Z. R. Dai, X. Xu, Y. F. Wang, M. F. Li, K. M. Zhou, L. Zhang,Y. D. Tan. Surface plasmon resonance biosensor with laser heterodyne feedback for highly-sensitive and rapid detection of COVID-19 spike antigen. Biosensors & Bioelectronics, 2022, 206

5.Z. Y. Hua, K. Y. Zhu, Y. F. Wang, Z. L. Zeng,Y. D. Tan. Contrast-enhanced ultrasound-modulated laser feedback imaging with microbubbles. Optics and Lasers in Engineering, 2022, 157

3.M. F. Li, Y. F. Wang, X. Xu,Y. D. Tan. Noise suppression of relaxation oscillation intensity in a microcavity Raman laser. Optics and Laser Technology, 2022, 148

4.J. C. Shi, Q. Liu, Y. D. Tan, K. H. Cui,J. W. Lu. Fast and in-situ correction of camera channel crosstalk based on Fourier transform of carrier fringes in multi-colour interferometry. Optics and Lasers in Engineering, 2022, 151

3.M. W. Tian, M. F. Li, X. Xu, Z. Y. Hua,Y. D. Tan. A Coherent Detection Method With 10^6 Higher Intensity Response Sensitivity Than Normal Heterodyne Interferometry. Journal of Lightwave Technology, 2022, 40(14).

2.Y. F. Wang, X. Xu, Z. R. Dai, Z. Y. Hua, C. X. Lin, Y. B. Hou, Q. Zhang, P. Wang,Y. D. Tan. Frequency-swept feedback interferometry for noncooperative-target ranging with a stand-off distance of several hundred meters. Photonix, 2022, 3(1).

1.X. Xu, Z. R. Dai, Y. F. Wang, M. F. Li,Y. D. Tan. High Sensitivity and Full-Circle Optical Rotary Sensor for Non-Cooperatively Tracing Wrist Tremor With Nanoradian Resolution. Ieee Transactions on Industrial Electronics, 2022, 69(9).

2021

4.M. F. Li, Y. F. Wang, M. W. Tian, J. Cheng, X. S. Jiang,Y. D. Tan. A Compact and Highly Sensitive Voice-Eavesdropping Microresonator. Journal of Lightwave Technology, 2021, 39(19).

3.M. W. Tian, Y. F. Wang, S. L. Zhang,Y. D. Tan. Research and Rediscussion on Collimation Factor of Gaussian Beam. Acta Optica Sinica, 2021, 41(9).

2.Zhong Xu; Jiyang Li; Shulian Zhang; Yidong Tan*; Xiliang Zhang; Xuling Lin; Xinjun Wan; Songlin Zhuang; Remote eavesdropping at 200 meters distance based on laser feedback interferometry with single-photon sensitivity, Optics and Lasers in Engineering, 2021, 141(1): 0-106562.

1.Yifan Wang, Yuhang Li, Xin Xu, Mingwang Tian, Kaiyi Zhu, and Yidong Tan*. . All-fiber laser feedback interferometry with 300 m transmission distance, Optics Letters, 2021, 46(4): 821-824.

2020

4.Namita Sahoo* ; Zhongyuan Sun; Kaiming Zhou; Xianfeng Chen; Yidong Tan; Lin Zhang; Front Matter: Volume 11355, Micro-Structured and Specialty Optical Fibres VI, City of Strasbourg, 2020-4-6至2020-4-10.

3.Mingfang Li, Yifan Wang, Xiaoshun Jiang, Fang Bo, Yong Ruan, and Yidong Tan*，Free-space self-interference micro resonator with tunable coupling regimes，Appl. Phys. Lett, 2020, 117, 031106

2.Borui Zhou, Zihan Wang, Xueju Shen, Li Zhang, and Yidong Tan*. High-sensitivity laser confocal tomography based on laser frequency-shifted feedback technique, Optics and Lasers in Engineering，2020,129：106059

1.Yifan Wang, Kaiyi Zhu, Yueyue Lu, Shulian Zhang and Yidong Tan*. Laser Scanning Feedback Imaging System Based on Digital Micromirror Device. IEEE Photonics Letters, 2020, 32(3): 146-149

2019

6.Yuan Yang; Yong Deng; Yidong Tan; Zhenyu Huang; Yong Zhang; Yun Wang; Shulian Zhang *; Nonlinear error analysis and experimental measurement of Birefringence-Zeeman dual-frequency laser interferometer, Optics Communications , 2019, 436: 264-268.

5.Borui Zhou, Yidong Tan*, Xue-Ju Shen*, Kaiyi Zhu, LiPing Bao. Mechanism of contrast-enhancement in ultrasound-modulated laser feedback imaging with ultrasonic microbubble contrast agent. Acta Physica Sinica, 2019, 68: 214304

4.Jiyang Li, Yidong Tan*, Kaiyi Zhu, Yueyue Lu, Shulian Zhang. Dual-frequency solid-state microchip laser and its frequency difference control. Optical Engineering, 2019, 58(11), 116105

3.Kaiyi Zhu, Borui Zhou, Yueyue Lu, Puxiang Lai, Shulian Zhang and Yidong Tan*. Ultrasound-modulated laser feedback tomography in the reflective mode, Optics Letters, 2019, 44(22)：5414-5417

2.Kaiyi Zhu; Hongfang Chen, Shulian Zhang; Zhaoyao Shi, Yun Wang, Yidong Tan*. Frequency-Shifted Optical Feedback Measurement Technologies Using a Solid-State Microchip Laser, Applied Sciences, 2019, 9 (1), 109

1.谈宜东，李继扬，朱开毅，卢悦越. 激光回馈测量技术在航空精密制造中的应用，2019，62(5)：24-36(封面文章)

2018

7.Zongren Dai, Kaiyi Zhu, Yidong Tan, Measurement of remote sound based on laser feedback interferometry[C]// Frontiers in Optics. 2018.

6.Yueyue Lu, Kaiyi Zhu, Shulian Zhang, and Yidong Tan, Depth of Focus Extension based on a Laser Frequency-shifted Feedback Imaging System[C]// Imaging Systems and Applications. 2018.

5.Kaiyi Zhu; Hongfang Chen, Shulian Zhang; Zhaoyao Shi, Yun Wang, Yidong Tan*. Frequency-Shifted Optical Feedback Measurement Technologies Using a Solid-State Microchip Laser, Applied Sciences, 2018, 9 (1), 109

4.Kaiyi Zhu; Yueyue Lu; Shulian Zhang; Haowen Ruan; Shin Usuki; Yidong Tan. Ultrasound modulated laser confocal feedback imaging inside turbid media, Optics Letters, 2018.03.03, 43(6): 1207~1210

3.Yueyue Lu, Kaiyi Zhu, Jiyang Li, Shulian Zhang, and Yidong Tan, Depth of focus extension by filtering in the frequency domain in laser frequency-shifted feedback imaging, Applied Optics, 2018, 57(20): 5823-5830.

2.张书练*; 谈宜东; 第三代激光干涉仪——固体微片激光自混合测量技术的突破宇航计测技术, 2018, (03): 43-59.

1.Kaiyi Zhu, Yueyue Lu, Shulian Zhang, Haowen Ruan, Shin Usuki, and Yidong Tan. Ultrasound modulated laser confocal feedback imaging inside turbid media. Optics Letters, 2018, 43(6):1207-1210

2017

1.K. Y. Zhu, B. Guo, Y. Y. Lu, S. L. Zhang, Y. D. Tan. Single-spot two-dimensional displacement measurement based on self-mixing interferometry. Optica, 2017, 4(7): 729-735

2.Jiyang Li, Yanxiong Niu,1 Sanbin Chen and Yidong Tan. Laser diode side-pumped Nd:YVO4 microchip laser with film-etched microcavity mirrors. Journal of the Optical Society of America A, 2017, 34(10): 1787-1792

6.Hao Chen; Yidong Tan; Shulian Zhang*; Liqun Sun; Study on mechanism of amplitude fluctuation of dual-frequency beat in microchip Nd:YAG laser , Journal of Optics, 2017, 19(1): 0-015702.

5.李继扬; 谈宜东; 吴季; 张书练; 基于激光回馈效应的液晶双折射特性测量, 红外与激光工程, 2017, (03): 114-119.

4.Kaiyi Zhu, Bo Guo, Yueyue Lu, Shulian Zhang, Yidong Tan. Single-spot two-dimensional displacement measurement based on self-mixing interferometry. Optica, 2017, 4(7): 729-735

3.Jiyang Li, Yanxiong Niu,1 Sanbin Chen and Yidong Tan. Laser diode side-pumped Nd:YVO4 microchip laser with film-etched microcavity mirrors. Journal of the Optical Society of America A, 2017, 34(10): 1787-1792

2016

7.Shaohui Zhang; Shulian Zhang*; Liqun Sun; Yidong Tan; Fiber self-mixing interferometer with orthogonally polarized light compensation , Optics Express, 2016, 24(23): 26558-26564.

2.Shaohui Zhang, Shulian Zhang, Yidong Tan, and Liqun Sun. Common-path heterodyne self-mixing interferometry with polarization and frequency multiplexing. Optics letters, 2016, 41(20): 4827-4830.

3.Hao Chen, Yidong Tan, Shulian Zhang, and Liqun Sun. Study on mechanism of amplitude fluctuation of dual-frequency beat in microchip Nd: YAG laser. Journal of Optics, 2016, 19(1): 015702.

4.Yidong Tan, Kaiyi Zhu, Shulian Zhang. New Method for Lens Thickness Measurement by the Frequency-shifted Confocal Feedback. Optics Communications, 2016, 380: 91–94

5.Shaohui Zhang, Shulian Zhang, Yidong Tan and Liqun Sun. A microchip laser source with stable intensity and frequency used for self-mixing interferometry. Review of Scientific Instruments, 2016, 87: 053114

6.Shaohui Zhang, Shulian Zhang, Liqun Sun and Yidong Tan. Spectrum broadening in optical frequency-shifted feedback NdYVO4 microchip laser. IEEE Photonics Technology Letters, 2016, 28:1593-1596

8.郭波; 秦水介; 谈宜东; 基于Nd:YVO4激光回馈效应的远距离振动测量研究, 光电子-激光, 2016, (03): 298-302.

17.Shaohui Zhang, Shulian Zhang, Liqun Sun and Yidong Tan. Spectrum broadening in optical frequency-shifted feedback NdYVO4 microchip laser. IEEE Photonics Technology Letters, 2016, 28:1593-1596

16.Shaohui Zhang, Shulian Zhang, Yidong Tan and Liqun Sun. A microchip laser source with stable intensity and frequency used for self-mixing interferometry. Review of Scientific Instruments, 2016, 87: 053114

15.Yidong Tan, Kaiyi Zhu, Shulian Zhang, New Method for Lens Thickness Measurement by the Frequency-shifted Confocal Feedback. Optics Communications, 2016, 380: 91–94

14.Yidong Tan, Kaiyi Zhu, Shulian Zhang, Lens Thickness Measurement and Axial Positioning Method Based on the Frequency-shifted Confocal Feedback[C]// Lasers & Electro-optics. IEEE, 2016.

13.Shaohui Zhang; Shulian Zhang*; Yidong Tan; Liqun Sun; Self-mixing interferometry with mutual independent orthogonal polarized light, Optics Letters, 2016, 41(4): 844-846

12.Hao Chen; Shulian Zhang*; Yidong Tan. Effect of pump polarization direction on power characteristics in monolithic microchip Nd:YAG dual-frequency laser, Applied Optics, 2016, 55(11): 2858-2862.

10.Shaohui Zhang; Shulian Zhang*; Yidong Tan; Liqun Sun; Common-path heterodyne self-mixing interferometry with polarization and frequency multiplexing, Optics Letters, 2016, 41(20): 4827-4830.

11.Ling Xu; Song Zhang; Yidong Tan; Shulian Zhang; Liqun Sun *; Refra ctive Index Measurement of Liquids by Double-Beam Laser Frequency-Shift Feedback, IEEE Photonics Technology Letters, 2016, 28(10): 1049-1052.

9.Shaohui Zhang; Shulian Zhang*; Yidong Tan; Liqun Sun; Common-path heterodyne self-mixing interferometry with polarization and frequency multiplexing, Optics Letters, 2016, 41(20): 4827-4830

2015

1.Shaohui Zhang, Yidong Tan, and Shulian Zhang. Effect of gain and loss anisotropy on polarization dynamics in Nd: YAG microchip lasers. Journal of Optics, 2015, 17(4): 045703.

2.Zeng, Zhaoli; Qu, Xueming; Tan, Yidong; Tan Runtao, Zhang Shulian. High-accuracy self-mixing interferometer based on single high-order orthogonally polarized feedback effects. Optics Express, 2015, 23(13): 16977-16983.

3.Li, Jiang; Tan, Yidong; Zhang, Shulian. Generation of phase difference between self-mixing signals in a-cut Nd:YVO4 laser with a waveplate in the external cavity. Optics Letters, 2015, 40(15): 3615-3618

15.Jiang Li, Yidong Tan, Shulian Zhang, Generation of phase difference between self-mixing signals in a-cut Nd:YVO4 laser with a waveplate in the external cavity. Optics Letters, 2015, 40(15): 3615-3618

14.Zeng, Zhaoli; Qu, Xueming; Tan, Yidong; Tan Runtao, Zhang Shulian. High-accuracy self-mixing interferometer based on single high-order orthogonally polarized feedback effects. Optics Express, 2015, 23(13): 16977-16983.

13.Ding Yingchun; Zheng Fasong; Lin Jing; Tan Yidong. Measurement of thermal expansion coefficients of materials based on Nd:YVO4 laser feedback systems, Proc. SPIE 9524, International Conference on Optical and Photonic Engineering (ICOPEN 2015), 9524(6):241-245.

12.Jiang Li, Kaiyi Zhu, Yidong Tan, Influence of longitudinal modes on self-mixing signals in Nd:YVO4 feedback interferometers[C]// 2015 International Conference on Optoelectronics and Microelectronics (ICOM). IEEE, 2015.

11.Zhang Shao Hui; Zhang Shu Lian*; Tan Yi Dong; Sun Li Qun; Dynamical properties of total intensity fluctuation spectrum in two-mode Nd:YVO4 microchip laser , Chinese Physics B, 2015, 24(12): 0-124203.

10.Zhang Peng; Liu Ning; Zhao Shijie; Tan Yidong; Zhang Shulian*; Measurement method for optical retardation based on the phase difference effect of laser feedback fringes , Applied Optics, 2015, 54(2): 204-209.

9.Zheng Fasong; Tan Yidong; Lin Jing; Ding Yingchun; Zhang Shulian*; Study of non-contact measurement of the thermal expansion coefficients of materials based on laser feedback interferometry, Review of Scientific Instruments, 2015, 86(4): 0-043109.

8.Zheng Fa Song; Ding Ying Chun*; Tan Yi Dong; Lin Jing; Zhang Shu Lian; The Approach of Compensation of Air Refractive Index in Thermal Expansion Coefficients Measurement Based on Laser Feedback Interferometry, Chinese Physics Letters, 2015, 32(7): 0-070702.

7.Zeng Zhaoli ; Qu Xueming; Tan Yidong ; Tan Runtao; Zhang Shulian*; High-accuracy self-mixing interferometer based on single high-order orthogonally polarized feedback effects, Optics Express, 2015, 23(13): 16977-16983

6.Xu Ling; Tan Yi Dong; Zhang Shu Lian*; Sun Li Qun; Measurement of Refractive Index Ranging from 1.42847 to 2.48272 at 1064 nm Using a Quasi-Common-Path Laser Feedback System, Chinese Physics Letters, 2015, 32(9): 0-090701.

5.Zhang Shaohui; Tan Yidong; Zhang Shulian; Effect of gain and loss anisotropy on polarization dynamics in Nd:YAG microchip lasers, Journal of Optics, 2015, 17(4): 0-045703

2014

1.Ling Xu, Shulian Zhang, Yidong Tan, and Liqun Sun. Simultaneous measurement of refractive-index and thickness for optical materials by laser feedback interferometry. Review of Scientific Instruments, 2014, 85(8): 083111.

2.Song Zhang, Yidong Tan, and Shulian Zhang. Note: measurement speed improvement of microchip Nd: YAG laser feedback interferometer. Review of Scientific Instruments, 2014, 85(3): 036112.

3.Song Zhang, Yidong Tan, Zhou Ren, Yongqin Zhang, and Shulian Zhang. A microchip laser feedback interferometer with nanometer resolution and increased measurement speed based on phase meter. Applied Physics B, 2014, 116(3): 609-616.

10.Zhang Song; Tan Yi-Dong; Zhang Shu-Lian*; Non-contact angle measurement based on parallel multiplex laser feedback interferometry , Chines e Physics B, 2014, 23(11): 0-114202

9.Xu, Ling; Zhang, Shulian*; Tan, Yidong; Sun, Liqun; Simultaneous measurement of refractive-index and thickness for optical materials by laser feedback interferometry , Review of Scientific Instruments, 2014, 85(8): 0-083111.

8.Zhang Song; Tan Yi Dong; Zhang Shu Lian; Frequency difference modulation of microchip Nd:YAG laser induced by laser feedback, Acta Physica Sinica, 2014, 63(10): 0-104208.

7.Zhang Song; Tan Yidong; Zhang Shulian; Note: Measurement speed improvement of microchip Nd: YAG laser feedback interferometer, Review of Scientific Instruments, 2014, 85(3): 0-036112.

5.张松; 谈宜东; 张书练; 激光回馈引起的微片Nd:YAG激光器频差调制, Acta Physica Sinica, 2014, (10): 171-176.

6.曾召利; 张书练; 谈宜东; 基于激光回馈效应的纳米计量系统, 光电子-激光, 2 014, 25(03): 508-513.

4.李小丽; 谈宜东; 杨昌喜; 张书练; 基于扭转模腔的全固态单纵模拉曼黄光激光器设计, 光学学报, 2014, (12): 162-167.

2013

1.Tan Yidong, Xu Chunxin, Zhang Song, Zhang Shulian. Power spectral characteristic of microchip Nd:YAG laser subjected to frequency-shifted optical feedback. Laser Physics Letters. 2013, 10(2): 025001

2.Tan, Yidong; Zeng, Zhaoli; Zhang, Shulian; Zhang, Peng; Chen, Hao. Method for in situ calibration of multiple feedback interferometers, Chinese Optics Letters, 2013, 11(10): 102601

3.Tan, Yidong; Zhang Song; Ren, Zhou; Zhang, Yongqing; Zhang, Shulian. Real-Time Liquid Evaporation Rate Measurement Based on a Microchip Laser Feedback Interferometer, Chinese Physics Letters, 2013, 30(12): 124202

4.Wu, Yun; Tan, Yidong. Birefringence Optical Feedback with a Folded Cavity in HeNe Laser. Chinese Physics Letters ,2013, 30(1): 014201

5.Zhang, Peng; Tan, Yidong; Liu, Weixin; Chen, Wenxue. Methods for optical phase retardation measurement: A review. Science China-Technological Sciences, 2013, 56(5): 1155-1163

6.Wu Yun; Tan Yidong; Zeng Zhaoli; Zhang Shulian, Note: High-performance HeNe laser feedback interferometer with birefringence feedback cavity scanned by piezoelectric transducer, Review of Scientific Instruments. 2013, 84(5):056103

7.Wu Yun; Zhang Peng; Chen Wenxue; Tan, Yidong. A sensitive method of determining optic axis azimuth based on laser feedback，Chinese Physics B, 2013, 22(12): 124205

8.Tan Yidong, Wang Weiping, Xu Chun xin, Zhang Shulian, Laser confocal feedback tomography and nano-step height measurement. Scientific Reports. 2013, 3: 2971

9.Tan Yidong, Zhang Shulian, Xu Chun xin, Zhao Shijie. Inspecting and locating foreign body in biological sample by laser confocal feedback technology. Applied Physics Letters. 2013, 103(10): 101909

10.Zhang, Peng; Tan, Yidong; Liu, Ning; Wu, Yun; Zhang, Shulian. Phase difference in modulated signals of two orthogonally polarized outputs of a Nd:YAG microchip laser with anisotropic optical feedback, Optics Letters, 2013, 38(21): 4296-4299

11.Tan Yidong, Zhang Shulian, Zhang Song, Zhang Yongqin, Liu Ning. Response of microchip solid-state laser to external frequency-shifted feedback and its applications. Scientific Reports. 2013, 3: 2912

30.Wu Yun; Tan Yi Dong; Zhang Shu Lian*; Li Yan; Influence of Feedback Level on Laser Polarization in Polarized Optical Feedback, Chinese Physics Letters, 2013, 30(8): 0-084201.

29.Xu Chunxin*; Zhang Shulian; Tan Yidong ; Zhao Shijie; Inner structure detection by optical tomography technology based on feedback of microchip Nd:YAG lasers, Optics Express, 2013, 21(10): 11819-11826.

28.Zeng Zhaoli*; Zhang Shulian; Tan Yidong; Wu Yun; Li Yan; The frequency stabilization method of laser feedback interferometer based on external cavity modulation, Review of Scientific Instruments, 2013, 84(2): 0-025108

27.Xu Chunxin*; Tan Yidong; Zhang Shulian; Zhao Shijie; The structure measurement of micro-electro-mechanical system devices by the optical feedback tomography technology, Applied Physics Letters, 2013, 102(22): 0-221902.

26.Zeng Zhaoli; Zhang Shulian*; Tan Yidong; Liu Weixin; Controlling the duty cycle of the eigenstates in laser with multiple optical feedback, Optics Express, 2013, 21(17): 19990-19996.

25.Wu Yun; Tan Yidong; Zhang Shulian*; Zeng Zhaoli; Li Yan; Polarization characteristics of He-Ne laser with different directions of polarized feedback, Applied Optics, 2013, 52(22): 5371-5375

24.Zhang Song; Tan Yidong; Zhang Shulian; Parallel multiplex laser feedback interferometry , Review of Scientific Instruments, 2013, 84(12): 0-123101.

22.Tan Yidong, Xu Chunxin, Zhang Song, Zhang Shulian. Power spectral characteristic of microchip Nd:YAG laser subjected to frequency-shifted optical feedback. Laser Physics Letters. 2013, 10(2): 025001

21.Tan, Yidong; Zeng, Zhaoli; Zhang, Shulian; Zhang, Peng; Chen, Hao. Method for in situ calibration of multiple feedback interferometers, Chinese Optics Letters, 2013, 11(10): 102601

19.Tan, Yidong; Zhang Song; Ren, Zhou; Zhang, Yongqin; Zhang, Shulian. Real-Time Liquid Evaporation Rate Measurement Based on a Microchip Laser Feedback Interferometer, Chinese Physics Letters, 2013, 30(12): 124202

20.Wu, Yun; Tan, Yidong. Birefringence Optical Feedback with a Folded Cavity in HeNe Laser. Chinese Physics Letters ,2013, 30(1): 014201

18.Zhang, Peng; Tan, Yidong; Liu, Weixin; Chen, Wenxue. Methods for optical phase retardation measurement: A review. Science China-Technological Sciences, 2013, 56(5): 1155-1163

17.Wu Yun; Tan Yidong; Zeng Zhaoli; Zhang Shulian, Note: High-performance HeNe laser feedback interferometer with birefringence feedback cavity scanned by piezoelectric transducer, Review of Scientific Instruments. 2013, 84(5):056103

16.Wu Yun; Zhang Peng; Chen Wenxue; Tan, Yidong. A sensitive method of determining optic axis azimuth based on laser feedback，Chinese Physics B, 2013, 22(12): 124205

14.Tan Yidong, Zhang Shulian, Xu Chun xin, Zhao Shijie. Inspecting and locating foreign body in biological sample by laser confocal feedback technology. Applied Physics Letters. 2013, 103(10): 101909

13.Zhang, Peng; Tan, Yidong; Liu, Ning; Wu, Yun; Zhang, Shulian. Phase difference in modulated signals of two orthogonally polarized outputs of a Nd:YAG microchip laser with anisotropic optical feedback, Optics Letters, 2013, 38(21): 4296-4299

23.Tan Yidong, Zhang Shulian, Zhang Song, Zhang Yongqing, Liu Ning. Response of microchip solid-state laser to external frequency-shifted feedback and its applications. Scientific Reports. 2013, 3（1）: 2912

2012

4.Wang Weiping; Tan Yidong; Zhang Shulian*; Li Yan; Microstructure measurement based on frequency-shift feedback in a-cut Nd:YVO4 laser, Chinese Optics Letters, 2015, 13(12): 0-121201

2010

15.Tan Yidong, Wang Weiping, Xu Chunxin, Zhang Shulian, Laser confocal feedback tomography and nano-step height measurement. Scientific Reports. 2013, 3（1）: 2971

谈宜东教授

光电工程研究所

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