8 Papers
4 Citations
Pan Fu is an academic researcher from Tianjin University of Technology. The author has contributed to research in topics: Dielectric & Wavefront. The author has an hindex of 2, co-authored 2 publications.
Chat about Author
Papers
Spin-decoupling of vertical cavity surface-emitting lasers with complete phase modulation using on-chip integrated Jones matrix metasurfaces
TL;DR: In this paper , the performance of CMOS compatible Jones matrix metasurfaces monolithically integrated with standard VCSELs for on-chip spin-decoupling and phase shaping is evaluated.
Metasurface Enabled On‐Chip Generation and Manipulation of Vector Beams from Vertical Cavity Surface‐Emitting Lasers
Pan Fu,Peinan Ni,Bo Wu,Xianzi Pei,Qiuhua Wang,Pei-Pei Chen,Chen Xu,Qiang Kan,Weiguo Chu,Yiyang Xie +9 more
TL;DR: In this article , a vectorial VCSEL with a single layer of beam shaping metasurface bypasses the requirements of multiple cascaded optical components, and thus has the potential to promote the advancements of ultracompact, lightweight, and scalable vector beams sources, enriching and expanding the applications of vector vectors in optical communications, laser manipulation and processing, information encryption, and quantum optics.
24
Liquid crystal-modulated tunable filter based on coupling between plasmon-induced transparency and cavity mode
TL;DR: In this article, a liquid crystal (LC)-modulated tunable filter is theoretically studied, consisting of an Au nanorod array and an Au film separated by a dielectric indium tin oxide (ITO) glass layer.
4
On‐chip Integration of Metasurface‐Based Beam Splitter with Variable Split Ratio
Xian‐Zi Pei,Lei Bao,Qiu‐Hua Wang,Bo Wu,Pan Fu,Heng‐Jie Zhou,Jun Deng,Peinan Ni,Qiang Kan,Pei-Pei Chen,Yi‐Yang Xie +10 more
- 23 Apr 2025
Study of in-phased coupled vertical cavity surface emitting laser array and two-dimensional beam steering
JiangYuan Yuan,Pan Fu,Chen Xu,Pengying Chang,Lei Bao,Yiyang Xie +5 more
- 06 Aug 2023
TL;DR: Researchers develop a 2D beam steering chip integrating liquid crystal optical phased arrays with in-phased coupled VCSEL arrays, achieving 4.96° max deflection range through finite difference time domain simulations, addressing integration, portability, and power consumption issues in photoelectric systems.