Xiaofeng Peng


Curriculum Vitae –Dr. Xiaofeng Peng


Date of Birth: 16 September, 1992

Nationality: Chinese


Present address

School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China

Email: xfpeng888@163.com

Personal website

https://scholar.google.com.hk/citations?user=iO_fUisAAAAJ&hl=zh-CN


Education

l Royal institute of Technology, Sweden, Visiting Ph. D student in Optics, Sep. 2019- Sep.2020

l Soochow University, P.R. China, Ph. D student in Optical Engineering, Sep. 2015-Dec. 2020

l Shaoxing University, B.Sc. student in Physics, Sep. 2011-Jun. 2015


Working Experience

l School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China, Lecturer, Jan. 2021-Present


Award and Honours


Research fields

Light manipulation and applications; Optical coherence and Polarization; Atmospheric Optics




Selected papers published in refereed international journals

(1) L. Liu, H. Wang, L. Liu, Y. Ye, F. Wang, Y. Cai, and X. Peng*, “Radially polarized twisted partially coherent vortex beams,” Opt. Express 30, 7511 (2022).

(2) L. Liu, H. Wang, L. Liu, Y. Dong, F. Wang, B. J. Hoenders, Y. Chen, Y. Cai, and X. Peng*, “Propagation Properties of a Twisted Hermite-Gaussian Correlated Schell-Model Beam in Free Space,” Frontiers in Physics 10, (2022).

(3) X. Peng, H. Wang, L. Liu, F. Wang, S. Popov, Y. Cai, “Self-reconstruction of twisted Laguerre-Gaussian Schell-model beams partially blocked by an opaque obstacle,” Opt. Express 28, 31510-31523 (2020).

(4) X. Peng, X. Lu, X. Liu, C. Zhao, R. Lin, L. Liu, Y. Cai, “Generation and propagation of a Hermite-Gaussian Correlated Schell-Model LG0l Beam” Appl. Sci. 9, 610 (2019)

(5) X. Peng, L. Liu, F. Wang, S. Popov, Y. Cai, “Twisted Laguerre-Gaussian Schell-model beam and its orbital angular momentum,” Opt. Express 26, 33956-33969 (2018).

(6) X. Peng, L. Liu, Y. Cai, Y. Baykal, “Statistical properties of a radially polarized twisted Gaussian Schell-model beam in an underwater turbulent medium,” J. Opt. Soc. Am. A 34, 133-139 (2017).

(7) X. Peng, L. Liu, J. Yu, Y. Cai, Y. Baykal, W. Li, “Propagation of a radially polarized twisted Gaussian Schell-model beam in turbulent atmosphere,” J. Opt. 18, 125601 (2016).

(8) H. Wang, X. Peng, H. Zhang, L. Liu, Y. Chen, F. Wang, and Y. Cai, “Experimental synthesis of partially coherent beam with controllable twist phase and measuring its orbital angular momentum,” Nanophotonics (2021).

(9) H. Wang, X. Peng, L. Liu, F. Wang, Y. Cai, “Twisted elliptical multi-Gaussian Schell-model beams and their propagation properties,” J. Opt. Soc. Am. A 37 (1), 89-97 (2020).

(10) H. Wang, X. Peng, L. Liu, F. Wang, Y. Cai, and S. A. Ponomarenko, Generating bona fide twisted Gaussian Schell-model beams,” Opt. lett. 44, 3709-3712 (2019).

(11) X. Liu, X. Peng, L. Liu, G. Wu, C. Zhao, F. Wang, Y. Cai, “Self-reconstruction of the degree of coherence of a partially coherent vortex beam obstructed by an opaque obstacle,” Appl. Phys. Lett. 110, 181104 (2017).

(12) L. Liu, X. Peng, Y. Chen, L. Guo, Y. Cai, “Statistical properties of a radially polarized twisted Gaussian Schell-model beam in a uniaxial crystal,” J. Mod. Opt. 64, 698-708 (2017).

(13) X. Liu, L. Liu, X. Peng, L. Liu, F. Wang, Y. Gao, Y. Cai, “partially coherent vortex beam with periodical coherence properties,” J. Quant. Spectrosc. Radiat. Transf. 222, 138-144 (2019).

(14) J. Chen, E. Zhang, X. Peng, Y. Cai, “Efficient tensor approach for simulating paraxial propagation of arbitrary partially coherent beams,” Opt. Express 25, 24780-24798 (2017).

(15) C. Liang, X. Zhu, C. Mi, X. Peng, F. Wang, Y. Cai, SA Ponomarenko, “High-quality partially coherent Bessel beam array generation,” Opt. lett. 43, 3188-3191 (2018).



College Leaders
Organization
College history

Xiaofeng Peng


Curriculum Vitae –Dr. Xiaofeng Peng


Date of Birth: 16 September, 1992

Nationality: Chinese


Present address

School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China

Email: xfpeng888@163.com

Personal website

https://scholar.google.com.hk/citations?user=iO_fUisAAAAJ&hl=zh-CN


Education

l Royal institute of Technology, Sweden, Visiting Ph. D student in Optics, Sep. 2019- Sep.2020

l Soochow University, P.R. China, Ph. D student in Optical Engineering, Sep. 2015-Dec. 2020

l Shaoxing University, B.Sc. student in Physics, Sep. 2011-Jun. 2015


Working Experience

l School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China, Lecturer, Jan. 2021-Present


Award and Honours


Research fields

Light manipulation and applications; Optical coherence and Polarization; Atmospheric Optics




Selected papers published in refereed international journals

(1) L. Liu, H. Wang, L. Liu, Y. Ye, F. Wang, Y. Cai, and X. Peng*, “Radially polarized twisted partially coherent vortex beams,” Opt. Express 30, 7511 (2022).

(2) L. Liu, H. Wang, L. Liu, Y. Dong, F. Wang, B. J. Hoenders, Y. Chen, Y. Cai, and X. Peng*, “Propagation Properties of a Twisted Hermite-Gaussian Correlated Schell-Model Beam in Free Space,” Frontiers in Physics 10, (2022).

(3) X. Peng, H. Wang, L. Liu, F. Wang, S. Popov, Y. Cai, “Self-reconstruction of twisted Laguerre-Gaussian Schell-model beams partially blocked by an opaque obstacle,” Opt. Express 28, 31510-31523 (2020).

(4) X. Peng, X. Lu, X. Liu, C. Zhao, R. Lin, L. Liu, Y. Cai, “Generation and propagation of a Hermite-Gaussian Correlated Schell-Model LG0l Beam” Appl. Sci. 9, 610 (2019)

(5) X. Peng, L. Liu, F. Wang, S. Popov, Y. Cai, “Twisted Laguerre-Gaussian Schell-model beam and its orbital angular momentum,” Opt. Express 26, 33956-33969 (2018).

(6) X. Peng, L. Liu, Y. Cai, Y. Baykal, “Statistical properties of a radially polarized twisted Gaussian Schell-model beam in an underwater turbulent medium,” J. Opt. Soc. Am. A 34, 133-139 (2017).

(7) X. Peng, L. Liu, J. Yu, Y. Cai, Y. Baykal, W. Li, “Propagation of a radially polarized twisted Gaussian Schell-model beam in turbulent atmosphere,” J. Opt. 18, 125601 (2016).

(8) H. Wang, X. Peng, H. Zhang, L. Liu, Y. Chen, F. Wang, and Y. Cai, “Experimental synthesis of partially coherent beam with controllable twist phase and measuring its orbital angular momentum,” Nanophotonics (2021).

(9) H. Wang, X. Peng, L. Liu, F. Wang, Y. Cai, “Twisted elliptical multi-Gaussian Schell-model beams and their propagation properties,” J. Opt. Soc. Am. A 37 (1), 89-97 (2020).

(10) H. Wang, X. Peng, L. Liu, F. Wang, Y. Cai, and S. A. Ponomarenko, Generating bona fide twisted Gaussian Schell-model beams,” Opt. lett. 44, 3709-3712 (2019).

(11) X. Liu, X. Peng, L. Liu, G. Wu, C. Zhao, F. Wang, Y. Cai, “Self-reconstruction of the degree of coherence of a partially coherent vortex beam obstructed by an opaque obstacle,” Appl. Phys. Lett. 110, 181104 (2017).

(12) L. Liu, X. Peng, Y. Chen, L. Guo, Y. Cai, “Statistical properties of a radially polarized twisted Gaussian Schell-model beam in a uniaxial crystal,” J. Mod. Opt. 64, 698-708 (2017).

(13) X. Liu, L. Liu, X. Peng, L. Liu, F. Wang, Y. Gao, Y. Cai, “partially coherent vortex beam with periodical coherence properties,” J. Quant. Spectrosc. Radiat. Transf. 222, 138-144 (2019).

(14) J. Chen, E. Zhang, X. Peng, Y. Cai, “Efficient tensor approach for simulating paraxial propagation of arbitrary partially coherent beams,” Opt. Express 25, 24780-24798 (2017).

(15) C. Liang, X. Zhu, C. Mi, X. Peng, F. Wang, Y. Cai, SA Ponomarenko, “High-quality partially coherent Bessel beam array generation,” Opt. lett. 43, 3188-3191 (2018).



College Leaders
Organization
College history

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