Linwei Zhu

2018-01-03

 

Linwei Zhu (visiting research scholar)

 Position: Associate professor, School of Physics and Optoelectronic

                 Engineering, Ludong University

 Contact: zhulinwei1983@163.com

 Research directions: Digital holography

                                    Diffraction optics

                                    Vector diffraction theory

                                    Optical superresolution

Working & Education Records

07/2011 - Present: Associate professor, School of Physics and Optoelectronic Engineering,

                               Ludong University, Yantai

08/2008 -07/2011: Degree: Ph.D in optics, Laboratory of Information Optics and Optoelectronics Technology,

                               Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai

09/2005 -07/2008: Degree: Master, School of Physics and electronic Sciences, Shandong Normal University, Jinan

09/2001 -07/2005: Degree: Bachelor, College of Physics and Electronic Information, Dezhou University, Dezhou

Awarded research grants

1. National Natural Science Foundation of China (61675093), 2017-2020.

2. National Natural Science Foundation of China (61205014), 2013-2015.

3. Project of Shandong Province Higher Educational Science and Technology Program (J12LJ02), 2012-2014.

4. Doctoral Foundational of Shandong Province (BS2012DX006), 2012-2014.

Publications

1. J. Yu, C. Zhou, L. Zhu, Y. Lu, J. Wu, and W. Jia, "Generalized non-separable two-dimensional Dammann encoding method," Optics Communications 382, 539-546 (2017).

2. L. Zhu, R. Yang, D. Zhang, J. Yu, and J. Chen, "Dynamic three-dimensional multifocal spots in high numerical-aperture objectives,"Opt Express 25, 24756-24766 (2017).

3. Y. Zhong, J. Wen, J. Chen, L. Zhu, X. Gao, C. Tao, and D. Zhang, "A Highly Efficient Plasmonic Lens Based on a Single Annular Ring With Cross Section of an Asymmetric Slot," Ieee Photonics Journal 8(2016).

4. L. Zhigang, L. Zhishen, and Z. Linwei, "New method for measuring ocean optical parameters by lidar," Journal of Applied Optics 37, 142-146 (2016).

5. Z. Huang, Z. Hao, and L. Zhu, "Axial multifocal binary-phase zone plate for high numerical aperture focusing," Optical Engineering 55(2016).

6. Z. Huang, J. Yu,L. Zhu, Generation of square arrays of curved Bessel-like beams using continuous-phase encoding gratings, Optical Engineering, 56(10) (2017).

7. L. Zhigang, T. Maobin, and Z. Linwei, "Analysis on sea surface scattering of Doppler lidar in space," Journal of Applied Optics 36, 959-964 (2015).

8. J. Yu, C. Zhou, W. Jia, J. Wu, L. Zhu, Y. Lu, C. Xiang, and S. Li, "Generation of controllable rotating petal-like modes using composited Dammann vortex gratings," Applied Optics 54, 1667-1672 (2015).

9. M. Zhu, D. Zhang, L. Zhu, and J. Chen, "A Near Infrared Broadband Surface Plasmonic Lens Constructed with Multiple Couplers with Unidirectional Propagation Property," Plasmonics 10, 1315-1323 (2015).

10. J. Shengzhe, Z. Linwei, S. Meiyu, W. Lili, and L. Zhigang, "Axial Two Focus Zone Plate under Tight Foucsing Conditions," Acta Optica Sinica 35, 0305003 (2015).

11. L. Zhu, M. Sun, D. Zhang, J. Yu, J. Wen, and J. Chen, "Multifocal array with controllable polarization in each focal spot," Optics Express 23, 24688-24698 (2015).

12. W. Ma, D. Zhang, L. Zhu, and J. Chen, "Super-long longitudinal magnetization needle generated by focusing an azimuthally polarized and phase-modulated beam," Chinese Optics Letters 13(2015).

13. J. Yu, C. Zhou, J. Wu, L. Zhu, W. Jia, Y. Lu, and S. Li, "Standing quasi-diffraction-free beams generated by circular Dammann gratings under high-order radially polarized Laguerre-Gaussian incidence," Optics Communications 335, 102-107 (2015).

14. J. Yu, C. Zhou, Y. Lu, J. Wu, L. Zhu, and W. Jia, "Square lattices of quasi-perfect optical vortices generated by two-dimensional encoding continuous-phase gratings," Optics Letters 40, 2513-2516 (2015).

15. L. Zhu, M. Y. Sun, J. N. Chen, J. J. Yu, and C. H. Zhou, "Integrated digital holography for measuring the photothermal effect induced by femtosecond laser pulses," Optical Engineering 53, 8 (2014).

16. L. L. Wang, X. J. Xin, and L. Zhu, "A widely tunable erbium-doped fiber laser using closed loop control," IEICE Electron. Express 11, 6 (2014).

17. D. W. Zhang, M. J. Zhu, L. Zhu, Q. F. Xu, and J. N. Chen, "Controlling the polarization orientation of highly confined and enhanced surface plasmon polaritons," RSC Adv. 4, 61056-61063 (2014).

18. J. N. Chen, X. M. Gao, L. Zhu, Q. F. Xu, and W. Z. Ma, "The generation of a complete spiral spot and multi split rings by focusing three circularly polarized vortex beams," Optics Communications 318, 100-104 (2014).

19. L. Zhu, S. Z. Ji, L. L. Wang, M. Y. Sun, Z. G. Li, J. J. Yu, and J. N. Chen, "Axial multifocal spots generated by sectored phase-only modulation under tight focusing condition," in Conference on Holography, Diffractive Optics, and Applications VI, Proceedings of SPIE (Spie-Int Soc Optical Engineering, 2014),

20. L. Zhu, M. Y. Sun, M. J. Zhu, J. N. Chen, X. M. Gao, W. Z. Ma, and D. W. Zhang, "Three-dimensional shape-controllable focal spot array created by focusing vortex beams modulated by multi-value pure-phase grating," Optics Express 22, 21354-21367 (2014).

21. L. Zhu, J. Yu, D. Zhang, M. Sun, and J. Chen, "Multifocal spot array generated by fractional Talbot effect phase-only modulation," Optics Express 22, 9798-9808 (2014).

22. L. Zhu, J. J. Yu, D. W. Zhang, M. Y. Sun, and J. N. Chen, "Multifocal spot array generated by fractional Talbot effect phase-only modulation," Optics Express 22, 9798-9808 (2014).

23. L. Zhu, M. Y. Sun, J. N. Chen, Y. J. Yu, and C. H. Zhou, "Synthesis aperture femtosecond-pulsed digital holography," Optical Engineering 52, 6 (2013).

24. J. N. Chen, L. Zhu, F. F. Wang, and W. Z. Ma, "An Integrated Multistage Nanofocusing System," Plasmonics 8, 1559-1565 (2013).

25. L. Zhu, C. H. Zhou, W. Jia, Z. W. Fan, Y. F. Ma, and G. Niu, "Measurement of picosecond laser pulses using an autocorrelator and a FROG apparatus," in Conference on Holography, Diffractive Optics, and Applications IV, Proceedings of SPIE-The International Society for Optical Engineering (Spie-Int Soc Optical Engineering, 2010),

26. L. Zhu, C. H. Zhou, T. F. Wu, W. Jia, Z. W. Fan, Y. F. Ma, and G. Niu, "Femtosecond off-axis digital holography for monitoring dynamic surface deformation," Applied Optics 49, 2510-2518 (2010).

27. L. Zhu, C. H. Zhou, T. F. Wu, W. Jia, and Asme, "Digital Reconstruction at Femtosecond Laser-induced Dynamic surface Changes," Mnhmt2009, Vol 1, 687-691 (2010).

28. T. F. Wu, C. H. Zhou, L. Zhu, J. Xie, and Asme, "The surface-relief grating produced by interference of femtosecond laser," Mnhmt2009, Vol 1, 693-695 (2010).

29. T. F. Wu, C. H. Zhou, J. J. Zheng, J. J. Feng, H. C. Cao, L. Zhu, and W. Jia, "Generation of double femtosecond pulses by using two transmissive gratings," Applied Optics 49, 4506-4513 (2010).

30. L. Zhu, C. H. Zhou, and W. Jia, "Femtosecond laser-induced thermal lens effect in chromium film," Applied Optics 49, 6512-6521 (2010).

31. L. Zhu, C. H. Zhou, T. F. Wu, J. Xie, and Ieee, "Femtosecond laser gratings micromachining on PDMS plates," 2009 Lasers & Electro-Optics & the Pacific Rim Conference on Lasers and Electro-Optics, Vols 1 and 2, 919-920 (2009).

32. T. F. Wu, C. H. Zhou, J. Xie, L. Zhu, W. Jia, and Ieee, "Reversible dark-center of the chromium films induced by femtosecond and continuous laser," 2009 Lasers & Electro-Optics & the Pacific Rim Conference on Lasers and Electro-Optics, Vols 1 and 2, 921-922 (2009).

33. C. S. Guo, L. Li, L. Zhu, G. X. Wei, J. P. Ding, and H. T. Wang, "Phase contrast Talbot array illuminators," Optics Letters 33, 818-820 (2008).

34. L. Zhu, X. Yin, Z. P. Hong, and C. S. Guo, "Reciprocal vector theory for diffractive self-imaging," Journal of the Optical Society of America a-Optics Image Science and Vision 25, 203-210 (2008).

35. C. S. Guo, X. Yin, L. Zhu, and Z. P. Hong, "Analytical expression for phase distribution of a hexagonal array at fractional Talbot planes," Optics Letters 32, 2079-2081 (2007).

36. J. Chen, L. Zhu,Z. Li,Manipulation of the overall polarization orientation in the focal volume of high numerical objectives,Chinese Optics Letters,16(1):010501(2018.)