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Haijin Fu, Xinkang Xiong, Zheng Wang, et al. Homodyne laser vibrometer modified by an LCVR for measurement at the nanometer level [J]. Applied Optics, 2022, 61(3): 775-782.
Yisi Dong, Pengcheng Hu,Haijin Fu, et al. Long range dynamic displacement: precision PGC with sub-nanometer resolution in an LWSM interferometer [J]. Photonics Research, 2022, 10(1): 59-67.
Di Chang, Pengcheng Hu, Jiubin Tan. Fused-like angles: replacement for roll-pitch-yaw angles for a six-degree-of-freedom grating interferometer [J]. Frontiers of Information Technology & Electronic Engineering, 2021,22(12): 1677-1684.
Jiahao Guo, Jiubin Tan, Pengcheng Hu, et al. Analysis of light coupling in AlxGa1?xAs waveguide arrays [J]. Optics Express, 2021, 29(3): 3956-3964.
Bai, Y. , Wang, D. , Li, Z. , Lu, Y. , Hu, P. , & He, Q. , et al. (2021). Automatic alignment technique for the suspended coil in the joule balance. Metrologia, 58(6), 065005 (11pp).
Yisi Dong, Pengcheng Hu*, Ming Ran, Zhitao Le, Haijin Fu, Hongxing Yang, Ruitao Yang. Phase modulation depth setting technique of a phase-generated-carrier under AOIM in fiber-optic interferometer with laser frequency modulation. Opt. Express. 2020, 28: 31700-31713
Yang Ruitao, Pollinger Florian, Hu Pengcheng*, Yang Hongxing, Fu Haijin, Fan Zhigang, Tan Jiubin. Analysis of a highly efficient phase-locking stabilization method for electro-optic comb generation. Applied Optics. 2020, 59(16): 4839-4848.【2019 IF 1.961, 引用0次, 他引0次】
Fu Haijin, Wang Yue, Hu Pengcheng*, Yang Hongxing, Yang Ruitao, Xing Xu, Tan Jiubin. Real-time compensation of nonlinearity in heterodyne interferometers based on quadrature demodulation and extremum operation. Optical Engineering. 2020, 59(4): 044101.【2019 IF 1.113, 引用0次, 他引0次】
Yang Ruitao, Sun Hao, Hu Pengcheng*, Yang Hongxing, Fu Haijin, Fan Zhigang, Tan Jiubin. Experimental exploration of mode-locking evolution mechanism in dual-ring fiber laser. Optik. 2020, 208: UNSP 163899.【2019 IF 2.187, 引用0次, 他引0次】
Yang Ruitao, Lv Haisu, Luo Jing, Hu Pengcheng*, Yang Hongxing, Fu Haijin, Tan Jiubin. Ultrastable Offset-Locking Continuous Wave Laser to a Frequency Comb with a Compound Control Method for Precision Interferometry. Sensors. 2020, 20(5): 1248.【2019 IF 3.275, 引用0次, 他引0次】
Yang Hongxing, Yin Ziqi, Yang Ruitao*, Hu Pengcheng, Li Jing, Tan Jiubin. Design for a Highly Stable Laser Source Based on the Error Model of High-Speed High-Resolution Heterodyne Interferometers. Sensors. 2020, 20(4): 1083.【2019 IF 3.275, 引用0次, 他引0次】
Fu Haijin, Wang Ke, Hu Pengcheng*, Tan Jiubin, Yang Hongxing, Yang, Ruitao. Homodyne Laser Vibrometer With Detectability of Nanoscale Vibration and Adaptability to Reflectivity. IEEE Transactions on Instrumentation and Measurement. 2020, 69(2): 542-548.【2019 IF 3.658, 引用0次, 他引0次】
Dong Yisi, Hu Pengcheng*, Ran Ming, Fu Haijin, Yang Hongxing, Yang Ruitao. Correction of nonlinear errors from PGC carrier phase delay and AOIM in fiber-optic interferometers for nanoscale displacement measurement. Optics Express. 2020, 28(2): 2611-2624.【2019 IF 3.669, 引用0次, 他引0次】
Chang Di, Wang Jianing, Hu Pengcheng*, Tan Jiubin. Zoom into picometer: a picoscale equivalent phase-difference-generating method for testing heterodyne interferometers without ultraprecision stages. Optical Engineering. 2019, 58(6): 064101.【2019 IF 1.113, 引用1次, 他引0次】
Hu Pengcheng, Chang Di, Tan Jiubin*, Yang Ruitao, Yang Hongxing, Fu Haijin. Displacement measuring grating interferometer: a review. Frontiers of Information Technology & Electronic Engineering. 2019, 20(5): 631-654.【2019 IF 1.604, 引用5次, 他引5次】
Chang Di, Xing Xu, Hu Pengcheng*, Wang Jianing, Tan Jiubin. Double-Diffracted Spatially Separated Heterodyne Grating Interferometer and Analysis on its Alignment Tolerance. Applied Sciences-Basel. 2019, 9(2): 263.【2019 IF 2.474, 引用1次, 他引1次】
Fu Haijin, Ji Ruidong, Hu Pengcheng*, Wang Yue, Wu Guolong, Tan Jiubin. Measurement method for nonlinearity in heterodyne laser interferometers based on double-channel quadrature demodulation. Sensors. 2018, 18(9): 2678(1-9).【2019 IF 3.275, 引用3次, 他引1次】
Fu Haijin, Wu Guolong, Hu Pengcheng*, Tan Jiubin, Ding Xuemei. Thermal drift of optics in separated-beam heterodyne interferometers. IEEE Transactions on Instrumentation and Measurement. 2018, 67(6): 1446-1450.【2019 IF 3.658, 引用4次, 他引0次】
Fu Haijin, Wang Yue, Hu Pengcheng*, Tan Jiubin, Fan Zhigang. Nonlinear errors resulting from ghost reflection and its coupling with optical mixing in heterodyne laser interferometers. Sensors. 2018, 18(3): 758(1-12).【2019 IF 3.275, 引用3次, 他引0次】
Fu Haijin, Wu Guolong, Hu Pengcheng*, Ji Ruidong, Tan Jiubin, Ding Xuemei. Highly thermal-stable heterodyne interferometer with minimized periodic nonlinearity. Applied Optics. 2018, 57(6): 1463-1467.【2019 IF 1.961, 引用1次, 他引0次】
Li Zhengkun*, Zhang, Zhang Zhonghua, Lu Yunfeng, Bai Yang, Xu Jinxin, Hu Pengcheng, Liu Yongmeng, You Qiang, Wang Dawei, He Qing, Tan Jiubin. Progress of joule balance and redifination of Kilogram. Acta Physica Sinica. 2018, 67(16): 68-81.【2019 IF 0.732, 引用1次, 他引1次】
Xing Xu, Chang Di, Hu Pengcheng*, Tan Jiubin. Spatially separated heterodyne grating interferometer for eliminating periodic nonlinear errors. Optics Express. 2017, 25(25): 31384-31393.【2019 IF 3.669, 引用10次, 他引6次】
Yang Hongxing, Yang Ruitao, Hu Pengcheng*, Tan Jiubin. Ultrastable offset-locked frequency-stabilized heterodyne laser source with water cooling. Applied Optics. 2017, 56(33): 9179-9185.【2019 IF 1.961, 引用1次, 他引1次】
Li Zhengkun*, Zhang Zhonghua, Lu Yunfeng, Hu Pengcheng, Liu Yongmeng, Xu Jinxin, Bai Yang, Zeng Tao, Wang Gang, You Qiang, Wang Dawei, Li Shisong, He Qing, Tan Jiubin. The first determination of the Planck constant with the joule balance NIM-2. Metrologia. 2017, 54(5): 763-774.【2019 IF 2.28, 引用21次, 他引9次】
Bai Yang, Liu Yongmeng*, Lu Yunfeng, Hu Pengcheng, Wang Dawei, Li Zhengkun, Tan Jiubin, Zhang Zhonghua. Stability improvement for coil position locking of joule balance. Metrologia. 2017, 54(4): 461-467.【2019 IF 2.28, 引用3次, 他引1次】
Xing Guangzheng*, Yang Ping, Hu Pengcheng, Kwok Ho Lam, He Longbiao, Zhang Zhonghua. Field characterization of steady state focused transducers using hydrophones based on Fresnel approximation. Measurement Science and Technology. 2017, 28(6): 65005.【2019 IF 1.857, 引用0次, 他引0次】
Li Zhengkun*, Zhang Zhonghua, Lu Yunfeng, Hu Pengcheng, Liu Yongmeng, Xu Jinxin, Bai Yang, Zeng Tao, Wang Gang, You Qiang, Li Chen, Li Shisong, Wang Kai, He Qing, Tan Jiubin. The design and construction of the Joule Balance NIM-2. IEEE Transactions on Instrumentation and Measurement. 2017, 66(6): 1329-1336.【2019 IF 3.658, 引用6次, 他引1次】
Bai Yang, Hu Pengcheng*, Lu Yunfeng, Li Zhengkun, Zhang Zhonghua, Tan Jiubin. A six-axis heterodyne interferometer system for the Joule Balance. IEEE Transactions on Instrumentation and Measurement. 2017, 66(6): 1579-7585.【2019 IF 3.658, 引用9次, 他引0次】
Yang Hongxing*, Zhu Pengfei, Tan Jiubin, Hu Pengcheng, Fan Zhigang. High stable remote photoelectric receiver for interferometry. Review of Scientific Instruments. 2017, 88(3): 33105.【2019 IF 1.48, 引用1次, 他引0次】
Hu Pengcheng, Wang Yue, Fu Haijin*, Zhu Jinghao, Tan Jiubin. Nonlinearity error in homodyne interferometer caused by multi-order Doppler frequency shift ghost reflections. Optics Express. 2017, 25(4): 3605-3612.【2019 IF 3.669, 引用6次, 他引5次】
Fu Haijin, Hu Pengcheng*, Tan Jiubin, Fan Zhigang. Nonlinear error induced by intermodulation in heterodyne laser interferometers. Optics Letters. 2017, 42(03): 427-430.【2019 IF 3.714, 引用4次, 他引3次】
Mao Shuai, Hu Pengcheng*, Ding Xuemei, Tan Jiubin. Parameter correction method for dual position-sensitive-detector-based unit. Applied Optics. 2016, 55(15): 4073-4078.【2019 IF 1.961, 引用3次, 他引0次】
Bai Yang, Lu Yunfeng*, Hu Pengcheng, Wang Gang, Xu Jinxin, Zeng Tao, Li Zhengkun, Zhang Zhonghua, Tan Jiubin. Absolute position sensing based on a robust differential capacitive sensor with a grounded shield window. Sensors. 2016, 16(5): 680.【2019 IF 3.275, 引用12次, 他引11次】
Zeng Tao*, Lu Yunfeng, Yang Hongxing, Hu Pengcheng, Li Zhengkun, Zhang Zhonghua. System for the measurement of the deviation of a laser beam from the vertical direction. Applied Optics. 2016, 55(10): 2692-2700.【2019 IF 1.961, 引用5次, 他引2次】
Hu Pengcheng, Guo Jiahao, Tan Jiubin*. An annular planar-capacitive tilt sensor with a 360° measurement range. IEEE Transactions on Industrial Electronics. 2016, 63(4): 2469-2476.【2019 IF 7.515, 引用25次, 他引25次】
Zeng Tao*, Lu Yunfeng, Liu Yongmeng, Yang Hongxing, Bai Yang, Hu Pengcheng, Li Zhengkun, Zhang Zhonghua, Tan Jiubin. A capacitive sensor for the measurement of departure from the vertical movement. IEEE Transactions on Instrumentation and Measurement. 2016, 65(2): 458-466.【2019 IF 3.658, 引用18次, 他引14次】
Guo Jiahao, Hu Pengcheng*, Tan Jiubin. Analysis of a segmented annular coplanar capacitive tilt sensor with increased sensitivity. Sensors. 2016, 16(1): 133(1-11).【2019 IF 3.275, 引用6次, 他引5次】
Diao Xiaofei, Hu Pengcheng*, Xue Zi, Kang Yanhui. High-speed high- resolution heterodyne interferometer using a laser with low beat frequency. Applied Optics. 2016, 55(1): 110-116.【2019 IF 1.961, 引用13次, 他引12次】
Mao Shuai, Hu Pengcheng*, Ding Xuemei, Tan Jiubin. A fiber-coupled displacement measuring interferometer for determination of the posture of a reflective surface. Review of Scientific Instruments. 2016, 87(8): 83108.【2019 IF 1.48, 引用1次, 他引1次】
Yang Hongxing*, Weichert Christoph, Koechert Paul, Fluegge Jens. Nonlinearity of a double-path interferometer qualified with a non-constant moving speed. Optics Letters. 2016, 41(23): 5478-5481.【2019 IF 3.714, 引用3次, 他引0次】
Zhu Jinhao, Hu Pengcheng*, Tan Jiubin. Homodyne laser vibrometer capable of detecting nanometer displacements accurately by using optical shutters. Applied Optics. 2015, 54(34): 10196-10199.【2019 IF 1.961, 引用6次, 他引3次】
Hu Pengcheng, Yu Liang, Mei Jianting, Tan Jiubin*. Increasing the operating distance of a phase-shift laser range-finding system by using an active reflector. Optics Communications. 2015, 356: 7-11.【2019 IF 2.125, 引用1次, 他引1次】
Hu Pengcheng, Mao Shuai, Tan Jiubin*. Compensation of errors due to incident beam drift in a 3 DOF measurement system for linear guide motion. Optics Express. 2015, 23(22): 28389-28401.【2019 IF 3.669, 引用8次, 他引5次】
Fu Haijin, Tan Jiubin, Hu Pengcheng*, Fan Zhigang. Beam combination setup for dual-frequency laser with orthogonal linear polarization. Chinese Optics Letters. 2015, 13(10): 10120(1-5).【2019 IF 2.045, 引用7次, 他引7次】
Hu Pengcheng, Bai Yang, Zhao Jinlong, Wu Guolong, Tan Jiubin*. Toward a nonlinearity model for a heterodyne interferometer: not based on double-frequency mixing. Optics Express. 2015, 23(20): 25935-25941.【2019 IF 3.669, 引用13次, 他引6次】
Fu Haijin, Hu Pengcheng*, Tan Jiubin, Fan Zhigang. Simple method for reducing the first-order optical nonlinearity in a heterodyne laser interferometer. Applied Optics. 2015, 54(20): 6321-6326.【2019 IF 1.961, 引用5次, 他引5次】
Yang Hongxing*, Huang Kaiqi, Hu Pengcheng, Zhu Pengfei, Tan Jiubin, Zhigang Fan. Sub-nanometer periodic nonlinearity error in absolute distance interferometers. Review of Scientific Instruments. 2015, 86(5): 053103(1-4).【2019 IF 1.48, 引用0次, 他引0次】
Hu Pengcheng, Zhu Jinghao, Zhai Xiaoyu, Tan Jiubin*. DC-offset-free homodyne interferometer and its nonlinearity compensation. Optics Express. 2015, 23(7): 8399-8408.【2019 IF 3.669, 引用10次, 他引7次】
Yang Hongxing, Hu Pengcheng*, Tan Jiubin. Long distance measurement applying two high stability and synchronous wavelengths. IEEE Transactions on Instrumentation and Measurement. 2015, 64(3): 750-757.【2019 IF 3.658, 引用4次, 他引4次】
Hu Pengcheng, Zhu Jinhao, Guo Xuanbiao, Tan Jiubin*. Compensation for the variable cyclic error in homodyne laser interferometers. Sensors. 2015, 15(2): 3090-3106.【2019 IF 3.275, 引用12次, 他引7次】
Yang Ruitao*, Pollinger Florian, Meiners-Hagen Karl, Krystek Michael, Tan Jiubin, Bosse Harald. Absolute distance measurement by dual-comb interferometry with multi-channel digital lock-in phase detection. Measurement Science and Technology. 2015, 26(8): 084001.【2019 IF 1.857, 引用22次, 他引1次】
Yang Hongxing, Lu Yunfeng*, Hu Pengcheng, Li Zhengkun, Zeng Tao, He Qing, Zhonghua Zhang, Tan Jiubin. Measurement and control of movable coil position of joule balance with a system based on laser heterodyne interferometer. Measurement Science and Technology. 2014, 25(6): 064003(1-6).【2019 IF 1.857, 引用11次, 他引2次】
Hu Pengcheng, Chen Peng, Diao Xiaofei, Tan Jiubin*. Highly stable heterodyne interferometer without periodic nonlinearity. tm-Technisches Messen. 2014, 81(5): 246-254.【2019 IF 0.58, 引用4次, 他引1次】
Hu Pengcheng*, Chen Peng, Ding Xuemei, Tan Jiubin. Balanced plane-mirror heterodyne interferometer with subnanometer periodic nonlinearity. Applied Optics. 2014, 53(24): 5448-5452.【2019 IF 1.961, 引用9次, 他引5次】
Yang Ruitao*, Pollinger Florian, Meiners-Hagen Karl, Tan Jiubin, Bosse Harald. Heterodyne multi-wavelength absolute interferometry based on a cavity-enhanced electro-optic frequency comb pair. Optics Letters. 2014, 39(20): 5834-5837.【2019 IF 3.714, 引用44次, 他引36次】
DiaoXiaofei, Tan Jiubin*, Hu Pengcheng, Yang Hongxing, Wang Pengfei. Frequency stabilization of an internal mirror He-Ne laser with a high frequency reproducibility. Applied Optics. 2013, 52(3): 456-460.【2019 IF 1.961, 引用7次, 他引6次】
Tan Jiubin*, Yang Hongxing, Hu Pengcheng, Diao Xiaofei. Identification and elimination of half-synthetic wavelength error for multi-wavelength long absolute distance measurement. Measurement Science and Technology. 2011, 22(11): 115301(1-8).【2019 IF 1.857, 引用4次, 他引3次】
Tan Jiubin*, Fu Haijin, Hu Pengcheng, Liu lidong. A laser polarization state measurement method based on the beat amplitude characteristic. Measurement Science and Technology. 2011, 22(8): 085302(1-7).【2019 IF 1.857, 引用3次, 他引1次】
Wu Guolong, Yang Hongxing*, Fu Haijin, Hu Pengcheng, Ding Xuemei. Design and Performance Analysis of a Novel Thermos-structure for Measuring Thermal Drift of Optics in a Next Generation Interferometer. Proceedings of SPIE - The International Society for Optical Engineering. 2019, 11053: 110534G.
Fu Haijin, Wang Yue, Ji Ruidong, Hu Pengcheng*, Yang Hongxing, Yang Ruitao, Tan Jiubin. A real-time nonlinear error measurement method with picometer accuracy and free from target motion state. Proceedings of SPIE - The International Society for Optical Engineering. 2019, 11053: 110533H.
Wang Ke, Fu Haijin, Chang Di, Hu Pengcheng*, Yang Hongxing, Yang Ruitao, Tan Jiubin. An enhanced homodyne laser vibrometer based on an auto-gain module. Proceedings of SPIE - The International Society for Optical Engineering. 2019, 11053: 1105346.
Yang Ruitao*, Sun Hao, Guo Jiahao, Fu Haijin, Yang Hongxing, Hu Pengcheng, Fan Zhigang, Tan Jiubin. Dual-comb generation from a dual-ring hybrid mode-locked fiber laser. Proceedings of SPIE - The International Society for Optical Engineering. 2019, 11053: 1105324.
Bai Yang*, Hu Pengcheng, Lu Yunfeng, Li Zhengkun, Zhang Zhonghua, Tan, Jiubin. Six-axis Heterodyne Interferometer System for Joule Balance. CPEM 2016 - Conference on Precision Electromagnetic Measurements, Conference Digest. 2016
Li Zhengkun, Zhang Zhonghua, Lu Yunfeng, Li Chen, Hu Pengcheng, Liu Yongmeng, Li Shisong, Xu Jinxing, Bai Yang, Zeng Tao, Wang Gang, You Qiang, K. Wang, He Qing, and Tan Jiubin. The construction of the new Joule balance at the NIM.. CPEM 2016 - Conference on Precision Electromagnetic Measurements, Conference Digest. 2016
Hu Pengcheng*, Zhang Yifei, Wu Ting, Yuan Guibin. Design and development of measuring device for beam pointing and positional errors in Multi-axes laser interferometric systems. Proceedings of SPIE - The International Society for Optical Engineering. 2015, 9446: 94462G.
Fu Haijin*, Tan Jiubin, Fan Zhigang. Study on formation and transformation of the optical nonlinearity harmonics in the heterodyne laser interferometer. Proceedings of SPIE - The International Society for Optical Engineering. 2015, 9446: 94463X.
Chen Peng, Hu Pengcheng*, Ding Xuemei, and Tan Jiubin. Current ways and means for reduction or elimination of periodic nonlinearity in heterodyne interferometer. Proceedings of SPIE - The International Society for Optical Engineering. 2015, 9446: 94462I.
Hu Pengcheng*, Zhang Yifei, Wu Ting, Yuan Guibin. Design and development of measuring device for beam pointing and positional errors in Multi-axes laser interferometric systems. Proceedings of SPIE - The International Society for Optical Engineering. 2015, 9446: 94462G.
Hu Pengcheng*, Shi Weize, Mei Jianting. High precision Pt-resistance temperature measurement system. Optics and Precision Engineering. 2014, 22(4): 988-995.
Hu Pengcheng, Yang Hongxing*, Mei Jianting. Research on high sensitivity remote high-speed detectors for laser heterodyne signals. Journal of Optoelectronics·Laser. 2014, 25(5): 925-931.
Bai Yang*, Hu Pengcheng, Yang Hongxing, Lu Yunfeng, Zhang Zhonghua. Frequency Stabilized Laser for Length Metrology System in Joule Balance. CPEM Digest (Conference on Precision Electromagnetic Measurements). 2014, : 640-641.
Zeng Tao*, Lu Yunfeng, Yang Hongxing, Hu Pengcheng, Zhang Zhonghua. Alignment technology for coil movement of joule balance. CPEM Digest (Conference on Precision Electromagnetic Measurements). 2014, : 638-639.
Fu Haijin*, Tan Jiubin, Hu Pengcheng, Fan Zhigang. Model and measurement method of optical nonlinearities caused by the heterodyne and homodyne interference terms in the heterodyne interferometer. Key Engineering Materials. 2014, 613: 58-63.
Hu Pengcheng*, Tan Jiubin, Yang Hongxing, Fu Haijin, Wang Qi. Recent developments in heterodyne laser interferometry at Harbin Institute of Technology. Proceedings of SPIE - The International Society for Optical Engineering. 2013, 8759: 87593M.
Fu Haijin, Tan Jiubin*, Hu Pengcheng, Fan Zhigang. Transformation mechanism of nonlinearity harmonics caused by laser polarization in the heterodyne laser interferometer. Proceedings of SPIE - The International Society for Optical Engineering. 2013, 8759: 875944.
Lu Yunfeng*, Zhao Jianting, He Qing, Hu Pengcheng. The static state analysis of the balance suspension system for its displacement measuring. CPEM Digest (Conference on Precision Electromagnetic Measurements). 2012, : 342-343.
Hu Pengcheng*, Pollinger Florian, Karl Meiners-Hagen, Yang Hongxing, Ahmed Abou-Zeid. Fine correction of nonlinearity in homodyne interferometry. Proceedings of SPIE - The International Society for Optical Engineering. 2011, 7544: 75444E.
Hu Pengcheng*, Tan Jiubin, Wang Qi, Zhang Pei.. Asymmetric Thermal Structure for Frequency Stabilized Two-Mode Lasers. Key Engineering Materials. 2010, 437: 416-420.
Hu Pengcheng*, Tan Jiubin, Li Jing, Zhang Pei. Thermally compensated laser frequency stabilization system based on asymmetric thermal structure. Infrared and Laser Engineering. 2009, 38(2): 261-266.
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