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Optical Computational Imaging, Scattering Media Imaging, Optical Information Security

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https://scholar.google.com/citations?hl=en&user=HYJKgg4AAAAJ&view_op=list_works&sortby=pubdate

Journal Paper：

[1] Lina Zhou, Yin Xiao, and Wen Chen, “High-resolution self-corrected single-pixel imaging through dynamic and complex scattering media,” Optics Express, Accepted and under Production, 2023. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[2] Lina Zhou, Yin Xiao, and Wen Chen, “High-visibility orthonormalized ghost imaging with self-correction through dynamic and complex scattering media at low sampling ratios,” Applied Physics Letters, Accepted and under Production, 2023. (Impact factor: 3.971; Web of Science (Thomson Reuters JCR): Q2, 50 of 161; Category: Physics, Applied).

[3] Lina Zhou, Yin Xiao, and Wen Chen, “High-contrast gradient ghost imaging through dynamic and complex scattering media,” Applied Physics Letters, Accepted and under Production, 2023. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 50 of 161; Category: Physics, Applied).

[4] Lina Zhou, Yin Xiao, and Wen Chen, “Gradual ghost imaging of moving objects through dynamic and complex scattering media,” Optics Letters, In preparation, 2023. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[5] Zilan Pan, Yin Xiao, Yonggui Cao, Lina Zhou, and Wen Chen, “Optical data transmission through highly dynamic and turbid water using dynamic scaling factors and single-pixel detector,” Optics Express, Accepted and in Press, 2022. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[6] Yonggui Cao, Yin Xiao, Zilan Pan, Lina Zhou, and Wen Chen, “Physically-secured ghost diffraction and transmission,” IEEE Photonics Technology Letters, 34 (22), 1238 – 1241, 2022. (Impact factor: 2.414; Web of Science (Thomson Reuters JCR): Q3, 56 of 101; Category: Optics).

[7] Yonggui Cao, Yin Xiao, Zilan Pan, Lina Zhou, and Wen Chen, “High-fidelity temporally-corrected transmission through dynamic smoke via pixel-to-plane data encoding,” Optics Express, 30 (20), 36464 – 36477, 2022. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[8] Yin Xiao, Lina Zhou, and Wen Chen, “High-resolution ghost imaging through complex scattering media via a temporal correction,” Optics Letters, 47 (15), 3692 – 3695, 2022. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[9] Zilan Pan, Yin Xiao, Yonggui Cao, Lina Zhou, and Wen Chen, “Accurate optical information transmission through thick tissues using zero-frequency modulation and single-pixel detection,” Optics and Lasers in Engineering, 158, 107133 (7pp), 2022. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[10] Yonggui Cao, Yin Xiao, Zilan Pan, Lina Zhou, and Wen Chen, “Direct generation of 2D arrays of random numbers for high- fidelity optical ghost diffraction and information transmission through scattering media,” Optics and Lasers in Engineering, 158, 107141 (8pp), 2022. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[11] Yin Xiao, Lina Zhou, and Wen Chen, “High-efficiency and high- fidelity optical signal transmission in free space through scattering media using 2D random amplitude-only patterns and look- up table,” Optics and Lasers in Engineering, 155, 107059 (5pp), 2022. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[12] Yin Xiao, Lina Zhou, Zilan Pan, Yonggui Cao, and Wen Chen, “Physically-secured high- fidelity free-space optical data transmission through scattering media using dynamic scaling factors,” Optics Express, 30 (5), 8186 – 8198, 2022. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[13] Lina Zhou, Yin Xiao, Zilan Pan, Yonggui Cao, and Wen Chen, “Visual cryptography using binary amplitude-only holograms [Invited],” Frontiers in Photonics, 2, 821304 (10pp), 2022.

[14] Yin Xiao, Lina Zhou, Zilan Pan, Yonggui Cao, and Wen Chen, “Physically- enhanced ghost encoding,” Optics Letters, 47 (2), 433 – 436, 2022. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[15] Yin Xiao, Lina Zhou, Zilan Pan, Yonggui Cao, Mo Yang, and Wen Chen, “Analog ghost hidden in 2D random binary patterns for free-space optical data transmission,” Optics and Lasers in Engineering, 150, 106880 (5pp), 2022. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[16] Zilan Pan, Yin Xiao, Yonggui Cao, Lina Zhou, and Wen Chen, “Optical analog-signal transmission and retrieval through turbid water,” Applied Optics, 60 (34), 10704 – 10713, 2021. (Editors' Pick) (Impact factor: 1.905; Web of Science (Thomson Reuters JCR): Q3, 70 of 101; Category: Optics).

[17] Zilan Pan, Yin Xiao, Lina Zhou, Yonggui Cao, Mo Yang, and Wen Chen, “Non-line-of- sight optical information transmission through turbid water,” Optics Express, 29 (24), 39498 – 39510, 2021. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[18] Zilan Pan, Yin Xiao, Lina Zhou, Yonggui Cao, Mo Yang, and Wen Chen, “Non-line-of- sight optical information transmission through turbid water,” Optics Express, 29 (24), 39498 – 39510, 2021. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[19] Lina Zhou, Yin Xiao, Zilan Pan, Yonggui Cao, and Wen Chen, “Optical hiding based on single- input multiple-output and binary amplitude-only holograms via the modified Gerchberg-Saxton algorithm,” Optics Express, 29 (16), 25675 – 25696, 2021. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[20] Yin Xiao, Lina Zhou, and Wen Chen, “High- fidelity ghost diffraction and transmission in free space through scattering media,” Applied Physics Letters, 118(10), 104001 (5pp), 2021. (Impact factor: 3.971; Web of Science (Thomson Reuters JCR): Q2, 50 of 161; Category: Physics, Applied).

[21] Lina Zhou, Yin Xiao, and Wen Chen, “Learning-based optical authentication in complex scattering media,” Optics and Lasers in Engineering, 141, 106570 (10pp), 2021. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[22] Yin Xiao, Lina Zhou, and Wen Chen, “Optical information authentication using phase- only patterns with single-pixel optical detection,” Applied Optics, 60(10), B1 – B7, 2021. (Impact factor: 1.905; Web of Science (Thomson Reuters JCR): Q3, 70 of 101; Category: Optics).

[23] Yin Xiao, Lina Zhou, and Wen Chen, “Wavefront control through multi- layer scattering media using single-pixel detector for high-PSNR optical transmission,” Optics and Lasers in Engineering, 139, 106453 (6pp), 2021. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[24] Lina Zhou, Yin Xiao, and Wen Chen, “Learning complex scattering media for optical encryption,” Optics Letters, 45(18), 5279 – 5282, 2020. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[25] Yin Xiao, Lina Zhou, and Wen Chen, “Secured single-pixel ghost holography,” Optics and Lasers in Engineering, 128, 106045 (14pp), 2020. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[26] Lina Zhou, Yin Xiao, and Wen Chen, “Learning-based attacks for detecting the vulnerability of computer- generated hologram based optical encryption,” Optics Express, 28(2), 2499 – 2510, 2020. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[27] Lina Zhou, Yin Xiao, and Wen Chen, “Vulnerability to machine learning attacks of optical encryption based on diffractive imaging,” Optics and Lasers in Engineering, 125, 105858 (6pp), 2020. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[28] Yin Xiao, Lina Zhou, and Wen Chen, “Single-pixel imaging authentication using sparse Hadamard spectrum coefficients,” IEEE Photonics Technology Letters, 31(24), 1975 – 1978, 2019. (Impact factor: 2.414; Web of Science (Thomson Reuters JCR): Q3, 56 of 101; Category: Optics).

[29] Lina Zhou, Yin Xiao, and Wen Chen, “Machine-learning attacks on interference-based optical encryption: experimental demonstration,” Optics Express, 27(18), 26143 – 26154, 2019. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[30] Lina Zhou, Yin Xiao, and Wen Chen, “Imaging through turbid media with vague concentrations based on cosine similarity and convolutional neural network,” IEEE Photonics Journal, 11(4), 7801315 (15pp), 2019. (Impact factor: 2.25; Web of Science (Thomson Reuters JCR): Q2, 60 of 101; Category: Optics).

[31] Yin Xiao, Lina Zhou, and Wen Chen, “Experimental demonstration of ghost- imaging- based authentication in scattering media,” Optics Express, 27(15), 20558 – 20566, 2019. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[32] Yin Xiao, Lina Zhou, and Wen Chen, “Direct single-step measurement of Hadamard spectrum using single-pixel optical detection,” IEEE Photonics Technology Letters, 31(11), 845 – 848, 2019. (Impact factor: 2.414; Web of Science (Thomson Reuters JCR): Q3, 56 of 101; Category: Optics).

[33] Yin Xiao, Lina Zhou, and Wen Chen, “Fourier spectrum retrieval in single-pixel imaging,” IEEE Photonics Journal, 11(2), 7800411 (11pp), 2019. (Impact factor: 2.25; Web of Science (Thomson Reuters JCR): Q2, 60 of 101; Category: Optics).

[34] Lina Zhou, Jinsheng Lu, Hangbo Yang, Si Luo, Wei Wang, Jun lv, Min Qiu and Q iang Li, “Optically controllable nanobreaking of metallic nanowires,” Applied Physics Letters, 110(8), 081101, 2017. (Impact factor: 3.971; Web of Science (Thomson Reuters JCR): Q2, 50 of 161; Category: Physics, Applied).

[35] Jinsheng Lu, Hangbo Yang, Lina Zhou, Yuanqing Yang, Si Luo, Qiang Li and Min Qiu, “Light- induced pulling and pushing by the synergic effect of optical force and photophoretic force,” Physical Review Letters, 118(4), 043601, 2017. (Impact factor: 9.185; Web of Science (Thomson Reuters JCR): Q1, 8 of 86; Category: Physics, Multidisciplinary).

Conference Paper：

[1] Zilan Pan, Yin Xiao, Lina Zhou, and Wen Chen, “Optical transmission through thick biological tissue using optical modulation,” International Conference on Optical and Photonic Engineering (icOPEN 2022), 24-27 November 2022, Nanjing, China.

[2] Lina Zhou, Yin Xiao, and Wen Chen, “Learning enabled optical encryption in complex scattering media,” The 43rd PhotonIcs and Electromagnetics Research Symposium (PIERS), IEEE Xplore, 21 November 2021 – 25 November 2021, Hangzhou, China. (Invited Speaker)

[3] Lina Zhou, Xudong Chen, and Wen Chen, “Deep learning based attack on phase-truncated optical encoding,” 2020 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO2020), 7 December 2020 – 9 December 2020, Hangzhou, China.

[4] Lina Zhou, Xudong Chen, and Wen Chen, “Imaging through turbulent media using deep learning method,” 18th IEEE International Conference on Industrial Informatics (INDIN2020), IEEE Xplore, 20 July 2020 – 23 July 2020, The University of Warwick, Coventry, UK.

[5] Yin Xiao, Lina Zhou, and Wen Chen, “High-quality object reconstruction based on ghost imaging,” PhotonIcs & Electromagnetics Research Symposium (PIERS2019), IEEE Xplore, 17 – 20 December 2019, Xiamen, China.

[6] Lina Zhou, Yin Xiao, and Wen Chen, “Image recovery through turbid water under wide distance ranges,” International Conference on Optical and Photonic Engineering (icOPEN 2019), Proceedings of SPIE, 16 – 20 July 2019, Phuket, Thailand.

[7] Yin Xiao, Lina Zhou, and Wen Chen, “Off-axis digital hologram retrieval based on single- pixel optical imaging,” OSA Imaging and Applied Optics Congress, OSA Publishing, 24 – 27 June 2019, Munich, Germany.

[8] Lina Zhou, Yin Xiao, and Wen Chen, “Learning based holographic reconstruction through a diffuser,” PhotonIcs & Electromagnetics Research Symposium (PIERS 2019), IEEE Xplore, 17 – 20 June 2019, Rome, Italy.

[9] Yin Xiao, Lina Zhou, and Wen Chen, “Multiple-plane object reconstruction using single- pixel digital holography,” IEEE 28th International Symposium on Industrial Electronics (IEEE ISIE2019), IEEE Xplore,12 – 14 June 2019, Vancouver, Canada.

[10] Hangbo Yang, Lina Zhou, Jinsheng Lu, Shuowei Dai, Min Qiu and Qiang Li, “Laser assisted welding of layered metallic nanostructure,” IEEE 15th International Conference on Optical Communications and Networks (ICOCN), IEEE Xplore, 1 – 3 March 2016, Hangzhou, China.

[11] Lina Zhou, Guoping Liu, Si Luo, Qiang Li and Min Qiu, “Laser assisted welding of gold nanowires,” 5th International Conference on Advances in Optoelectronics and Micro/Nano-optics (AOM 2015), Journal of Physics: Conference Series, 680, 28–31 October 2015, Hangzhou, China

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Journal Paper：

[1] Lina Zhou, Yin Xiao, and Wen Chen, “High-resolution self-corrected single-pixel imaging through dynamic and complex scattering media,” Optics Express, Accepted and under Production, 2023. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[3] Lina Zhou, Yin Xiao, and Wen Chen, “High-contrast gradient ghost imaging through dynamic and complex scattering media,” Applied Physics Letters, Accepted and under Production, 2023. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 50 of 161; Category: Physics, Applied).

[4] Lina Zhou, Yin Xiao, and Wen Chen, “Gradual ghost imaging of moving objects through dynamic and complex scattering media,” Optics Letters, In preparation, 2023. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[6] Yonggui Cao, Yin Xiao, Zilan Pan, Lina Zhou, and Wen Chen, “Physically-secured ghost diffraction and transmission,” IEEE Photonics Technology Letters, 34 (22), 1238 – 1241, 2022. (Impact factor: 2.414; Web of Science (Thomson Reuters JCR): Q3, 56 of 101; Category: Optics).

[8] Yin Xiao, Lina Zhou, and Wen Chen, “High-resolution ghost imaging through complex scattering media via a temporal correction,” Optics Letters, 47 (15), 3692 – 3695, 2022. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[13] Lina Zhou, Yin Xiao, Zilan Pan, Yonggui Cao, and Wen Chen, “Visual cryptography using binary amplitude-only holograms [Invited],” Frontiers in Photonics, 2, 821304 (10pp), 2022.

[14] Yin Xiao, Lina Zhou, Zilan Pan, Yonggui Cao, and Wen Chen, “Physically- enhanced ghost encoding,” Optics Letters, 47 (2), 433 – 436, 2022. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[16] Zilan Pan, Yin Xiao, Yonggui Cao, Lina Zhou, and Wen Chen, “Optical analog-signal transmission and retrieval through turbid water,” Applied Optics, 60 (34), 10704 – 10713, 2021. (Editors' Pick) (Impact factor: 1.905; Web of Science (Thomson Reuters JCR): Q3, 70 of 101; Category: Optics).

[17] Zilan Pan, Yin Xiao, Lina Zhou, Yonggui Cao, Mo Yang, and Wen Chen, “Non-line-of- sight optical information transmission through turbid water,” Optics Express, 29 (24), 39498 – 39510, 2021. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[18] Zilan Pan, Yin Xiao, Lina Zhou, Yonggui Cao, Mo Yang, and Wen Chen, “Non-line-of- sight optical information transmission through turbid water,” Optics Express, 29 (24), 39498 – 39510, 2021. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[20] Yin Xiao, Lina Zhou, and Wen Chen, “High- fidelity ghost diffraction and transmission in free space through scattering media,” Applied Physics Letters, 118(10), 104001 (5pp), 2021. (Impact factor: 3.971; Web of Science (Thomson Reuters JCR): Q2, 50 of 161; Category: Physics, Applied).

[21] Lina Zhou, Yin Xiao, and Wen Chen, “Learning-based optical authentication in complex scattering media,” Optics and Lasers in Engineering, 141, 106570 (10pp), 2021. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[22] Yin Xiao, Lina Zhou, and Wen Chen, “Optical information authentication using phase- only patterns with single-pixel optical detection,” Applied Optics, 60(10), B1 – B7, 2021. (Impact factor: 1.905; Web of Science (Thomson Reuters JCR): Q3, 70 of 101; Category: Optics).

[24] Lina Zhou, Yin Xiao, and Wen Chen, “Learning complex scattering media for optical encryption,” Optics Letters, 45(18), 5279 – 5282, 2020. (Impact factor: 3.56; Web of Science (Thomson Reuters JCR): Q2, 32 of 101; Category: Optics).

[25] Yin Xiao, Lina Zhou, and Wen Chen, “Secured single-pixel ghost holography,” Optics and Lasers in Engineering, 128, 106045 (14pp), 2020. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[26] Lina Zhou, Yin Xiao, and Wen Chen, “Learning-based attacks for detecting the vulnerability of computer- generated hologram based optical encryption,” Optics Express, 28(2), 2499 – 2510, 2020. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[27] Lina Zhou, Yin Xiao, and Wen Chen, “Vulnerability to machine learning attacks of optical encryption based on diffractive imaging,” Optics and Lasers in Engineering, 125, 105858 (6pp), 2020. (Impact factor: 5.666; Web of Science (Thomson Reuters JCR): Q1, 18 of 101; Category: Optics).

[28] Yin Xiao, Lina Zhou, and Wen Chen, “Single-pixel imaging authentication using sparse Hadamard spectrum coefficients,” IEEE Photonics Technology Letters, 31(24), 1975 – 1978, 2019. (Impact factor: 2.414; Web of Science (Thomson Reuters JCR): Q3, 56 of 101; Category: Optics).

[29] Lina Zhou, Yin Xiao, and Wen Chen, “Machine-learning attacks on interference-based optical encryption: experimental demonstration,” Optics Express, 27(18), 26143 – 26154, 2019. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[31] Yin Xiao, Lina Zhou, and Wen Chen, “Experimental demonstration of ghost- imaging- based authentication in scattering media,” Optics Express, 27(15), 20558 – 20566, 2019. (Impact factor: 3.833; Web of Science (Thomson Reuters JCR): Q2, 28 of 101; Category: Optics).

[32] Yin Xiao, Lina Zhou, and Wen Chen, “Direct single-step measurement of Hadamard spectrum using single-pixel optical detection,” IEEE Photonics Technology Letters, 31(11), 845 – 848, 2019. (Impact factor: 2.414; Web of Science (Thomson Reuters JCR): Q3, 56 of 101; Category: Optics).

[33] Yin Xiao, Lina Zhou, and Wen Chen, “Fourier spectrum retrieval in single-pixel imaging,” IEEE Photonics Journal, 11(2), 7800411 (11pp), 2019. (Impact factor: 2.25; Web of Science (Thomson Reuters JCR): Q2, 60 of 101; Category: Optics).

Conference Paper：

[1] Zilan Pan, Yin Xiao, Lina Zhou, and Wen Chen, “Optical transmission through thick biological tissue using optical modulation,” International Conference on Optical and Photonic Engineering (icOPEN 2022), 24-27 November 2022, Nanjing, China.

[2] Lina Zhou, Yin Xiao, and Wen Chen, “Learning enabled optical encryption in complex scattering media,” The 43rd PhotonIcs and Electromagnetics Research Symposium (PIERS), IEEE Xplore, 21 November 2021 – 25 November 2021, Hangzhou, China. (Invited Speaker)

[3] Lina Zhou, Xudong Chen, and Wen Chen, “Deep learning based attack on phase-truncated optical encoding,” 2020 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO2020), 7 December 2020 – 9 December 2020, Hangzhou, China.

[4] Lina Zhou, Xudong Chen, and Wen Chen, “Imaging through turbulent media using deep learning method,” 18th IEEE International Conference on Industrial Informatics (INDIN2020), IEEE Xplore, 20 July 2020 – 23 July 2020, The University of Warwick, Coventry, UK.

[5] Yin Xiao, Lina Zhou, and Wen Chen, “High-quality object reconstruction based on ghost imaging,” PhotonIcs & Electromagnetics Research Symposium (PIERS2019), IEEE Xplore, 17 – 20 December 2019, Xiamen, China.

[6] Lina Zhou, Yin Xiao, and Wen Chen, “Image recovery through turbid water under wide distance ranges,” International Conference on Optical and Photonic Engineering (icOPEN 2019), Proceedings of SPIE, 16 – 20 July 2019, Phuket, Thailand.

[7] Yin Xiao, Lina Zhou, and Wen Chen, “Off-axis digital hologram retrieval based on single- pixel optical imaging,” OSA Imaging and Applied Optics Congress, OSA Publishing, 24 – 27 June 2019, Munich, Germany.

[8] Lina Zhou, Yin Xiao, and Wen Chen, “Learning based holographic reconstruction through a diffuser,” PhotonIcs & Electromagnetics Research Symposium (PIERS 2019), IEEE Xplore, 17 – 20 June 2019, Rome, Italy.

[9] Yin Xiao, Lina Zhou, and Wen Chen, “Multiple-plane object reconstruction using single- pixel digital holography,” IEEE 28th International Symposium on Industrial Electronics (IEEE ISIE2019), IEEE Xplore,12 – 14 June 2019, Vancouver, Canada.

[10] Hangbo Yang, Lina Zhou, Jinsheng Lu, Shuowei Dai, Min Qiu and Qiang Li, “Laser assisted welding of layered metallic nanostructure,” IEEE 15th International Conference on Optical Communications and Networks (ICOCN), IEEE Xplore, 1 – 3 March 2016, Hangzhou, China.

[11] Lina Zhou, Guoping Liu, Si Luo, Qiang Li and Min Qiu, “Laser assisted welding of gold nanowires,” 5th International Conference on Advances in Optoelectronics and Micro/Nano-optics (AOM 2015), Journal of Physics: Conference Series, 680, 28–31 October 2015, Hangzhou, China