Tag: Juan Liu

Juan Liu, Information Technology, Best Researcher Award

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Prof. Dr. Juan Liu: Professor at Beijing Institute of Technology, China

Dr. Juan Liu is a distinguished professor and researcher at the School of Optoelectronics, Beijing Institute of Technology, known for her significant contributions to optics, particularly in 3D holographic display technology and diffractive optical elements (DOE). Her expertise encompasses the development and application of micro- and nano-scale optical components, surface plasmon polaritons, and subwavelength optical super-resolution imaging. She has advanced the field of optical engineering through innovative research, leadership, and mentorship.

Online Profiles

Scopus Profile

Dr. Juan Liu is a distinguished professor at the Beijing Institute of Technology, Beijing, China, specializing in 3D holographic display technology, diffractive optical elements, and micro- and nano-scale optical components. She has authored over 325 documents, garnering 5,157 citations, and has an impressive h-index of 34, showcasing the substantial impact of her research. Her academic contributions span various groundbreaking projects in optics, including advancements in surface plasmon polaritons and super-resolution imaging. Dr. Liu’s work has been widely recognized in the field of optical engineering, and she actively engages with prominent academic networks such as ORCID and Mendeley for scholarly collaboration and knowledge sharing.

Education

Dr. Liu earned her Ph.D. in Optics in 2001 from the Institute of Physics, Chinese Academy of Sciences, under the supervision of Academician Prof. Guozhen Yang. Her Master’s degree in Applied Physics was awarded in 1998 by Shanghai University, where she worked with Prof. Weihan Tan. She completed her undergraduate studies in Applied Physics in 1992 at Xinyang Normal University. Her academic training laid a strong foundation for her career in optical engineering.

Research Focus

Her research interests lie in advancing 3D holographic display technologies, which hold potential for revolutionizing visualization and imaging systems. She specializes in designing and fabricating diffractive and holographic optical elements, creating optical components with micrometer and nanometer precision, and exploring the applications of plasmonics in achieving super-resolution imaging.

Experience

Dr. Liu has held a professorship at Beijing Institute of Technology since 2008 and has served as a doctoral supervisor in Optical Engineering since 2010. She gained international experience as a visiting professor at the University of California, Berkeley, and the University of Arizona. Earlier in her career, she worked as an Associate Professor at Beijing Jiaotong University and as a Research Fellow at the University of Vienna, Austria.

Research Timeline

Dr. Liu has led or participated in numerous high-profile projects, securing over 60 million RMB in research funding. Key projects include:

  • 2023–2024: “Holographic HUD Diaphragm Technology Development” (RMB 1.9M)
  • 2023–2026: “Research on Key Technology of High Precision Panoramic 3D Display” (RMB 2.46M)
  • 2022–2023: “Metasurface and Holographic Display Project” (RMB 3M)
  • 2021–2023: “Development of Color Photopolymer Holographic Materials” (RMB 6M)

These projects emphasize her leadership in holography and optical engineering, addressing challenges in advanced display systems and material sciences.

Awards & Honors

Dr. Liu’s excellence in optical research has been recognized through editorial and leadership roles, such as Topical Editor for Applied Optics (2014–2020) and Section Editor for Optik in the area of holography since 2018. She chaired the Optical Society of America’s Digital Holography International Conferences in 2019 and 2020 and serves on specialized committees within the Optical Society of China.

Top-Noted Publications

Dr. Liu’s research has garnered over 5,157 citations with an h-index of 34, reflecting her impact in optics. Recent key publications include:

  • Fringe locking system with large phase compensation range for holographic exposure systems with arbitrary recording wavefronts
    • Authors: Xu, Y., Liao, Q., Liu, J.
    • Journal: Optics and Laser Technology, 2025, 183, 112254
  • Curved Holographic Augmented Reality Near-Eye Display System Based on Freeform Holographic Optical Element with Extended Field of View
    • Authors: Xu, H., Xu, Y., Wang, C., Liu, J.
    • Journal: Photonics, 2024, 11(12), 1194
  • Ultrathin metasurface for super multi-view 3D display with linear and circular polarization control
    • Authors: Ahmad, M., Li, J., Ma, H., Liu, J.
    • Journal: Displays, 2024, 85, 102848
  • Amp-Holo-Net enables speckle-free and high-quality coaxial amplitude-only holographic display
    • Authors: Wu, H., Wei, J., Wei, C., Wu, J., Liu, J.
    • Journal: Optics Express, 2024, 32(24), pp. 43417–43429
  • Design method of wide-angle and large exit-pupil near-eye display optics
    • Authors: Jiang, S., Xu, L., Liu, J.
    • Journal: Guangxue Jishu/Optical Technique, 2024, 50(6), pp. 686–689