Author
Listed:
- Quanhao Niu
(Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information
Hubei Optical Fundamental Research Center
Optics Valley Laboratory)
- Jian Wang
(Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information
Hubei Optical Fundamental Research Center
Optics Valley Laboratory)
- Lei Shen
(Optics Valley Laboratory
Yangtze Optical Fiber and Cable Joint Stock Limited Company, State Key Laboratory of Optical Fiber and Cable Manufacture Technology)
- Hao Lin
(South China University of Technology, School of Physics and Optoelectronics)
- Xi Zhang
(Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information
Hubei Optical Fundamental Research Center
Optics Valley Laboratory)
- Zhenyu Wan
(Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information
Hubei Optical Fundamental Research Center
Optics Valley Laboratory)
- Mutian Xu
(Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information
Hubei Optical Fundamental Research Center
Optics Valley Laboratory)
- Hui Zhang
(Yangtze Optical Fiber and Cable Joint Stock Limited Company, State Key Laboratory of Optical Fiber and Cable Manufacture Technology)
- Jie Luo
(Optics Valley Laboratory
Yangtze Optical Fiber and Cable Joint Stock Limited Company, State Key Laboratory of Optical Fiber and Cable Manufacture Technology)
- Lei Zhang
(Optics Valley Laboratory
Yangtze Optical Fiber and Cable Joint Stock Limited Company, State Key Laboratory of Optical Fiber and Cable Manufacture Technology)
- Zhen Gao
(Southern University of Science and Technology, State Key Laboratory of Optical Fiber and Cable Manufacture Technology, Department of Electronic and Electrical Engineering, Guangdong Key Laboratory of Integrated Optoelectronics Intellisense)
- Perry Ping Shum
(Southern University of Science and Technology, State Key Laboratory of Optical Fiber and Cable Manufacture Technology, Department of Electronic and Electrical Engineering, Guangdong Key Laboratory of Integrated Optoelectronics Intellisense)
- Bei Yan
(Wuhan University of Science and Technology, Hubei Province Key Laboratory of Systems Science in Metallurgical Process, and College of Science)
Abstract
Photonic crystal fibers (PCFs) that trap and guide light using photonic bandgaps have revolutionized modern optics with enormous scientific innovations and technological applications spanning many disciplines. Recently, inspired by the discovery of topological phases of matter, Dirac-vortex topological PCFs have been theoretically proposed with intriguing topological properties and unprecedented opportunities in optical fiber communications. However, due to the substantial challenges of fabrication and characterization, experimental demonstration of Dirac-vortex topological PCFs has thus far remained elusive. Here, we report the experimental realization of a Dirac-vortex topological PCF using the standard stack-and-draw fabrication process with silica glass capillaries. Moreover, we experimentally observe that the Dirac-vortex single-polarization single-mode is bound to and propagates along the fiber core in the full communication window (1260-1675 nm). Our study pushes the research frontier of PCFs and provides a new avenue to enhance their performance and functionality.
Suggested Citation
Quanhao Niu & Jian Wang & Lei Shen & Hao Lin & Xi Zhang & Zhenyu Wan & Mutian Xu & Hui Zhang & Jie Luo & Lei Zhang & Zhen Gao & Perry Ping Shum & Bei Yan, 2025.
"Realization of a Dirac-vortex topological photonic crystal fiber,"
Nature Communications, Nature, vol. 16(1), pages 1-6, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65222-z
DOI: 10.1038/s41467-025-65222-z
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