Y. Zheng (SG) Nanyang Technological University
Nanyang Technological UniversityAuthor Of 2 Presentations
MF3.5 - TEMPERATURE-INDEPENDENT BENDING SENSOR BASED ON HOLLOW CORE MICROSTRUCTURED OPTICAL FIBER
- Y. Zheng (SG) Nanyang Technological University
- P. Shum (SG) Nanyang Technological University
- S. Liu (CN) Wuhan Institute of Technology
- Y. Luo (SG) Nanyang Technological University
- B. Li (CN) South China Normal University
- Y. Zhang (CN) Northeastern University
- J. Auguste (FR) XLIM Research Institute
- G. Humbert (FR) XLIM Research Institute
Abstract
Abstract
A temperature-independent bending sensor is proposed and developed based on hollow core microstructured optical fiber (HC-MOF). The device consists of a section of HC-MOF sandwiched by two segments of single mode fibers with the central-alignment. The nonlinear bending response is simulated and demonstrated experimentally.
WP6 - TEMPERATURE SENSOR BASED ON SELECTIVELY LIQUID INFILTRATED DUAL CORE PHOTONIC CRYSTAL FIBER
- C. Wang (SG) Nanyang Technology University
- P. Shum (SG) Nanyang Technological University
- D. Hu (SG) Institute for Infocomm Research, A*STAR
- Z. Xu (CN) MOE Key Laboratory of Fundamental Physical Quantities Measurement & Hubei Key Laboratory of Gravitation and Quantum Physics, PGMF and School of Physics, Huazhong University of Science and Technology
- Y. Zhu (SG) Institute for Infocomm Research, A*STAR
- Y. Luo (SG) Nanyang Technological University
- S. Liu (CN) Wuhan Institute of Technology
- Y. Zheng (SG) Nanyang Technological University
Abstract
Abstract
We proposed a temperature sensor by selectively infiltrating refractive index liquid (RIL) in the central airhole of a dual core photonic crystal fiber (PCF). The temperature dependent propagation characteristics of modes in the dual core PCF are analyzed numerically.
Presenter Of 1 Presentation
MF3.5 - TEMPERATURE-INDEPENDENT BENDING SENSOR BASED ON HOLLOW CORE MICROSTRUCTURED OPTICAL FIBER
- Y. Zheng (SG) Nanyang Technological University
- P. Shum (SG) Nanyang Technological University
- S. Liu (CN) Wuhan Institute of Technology
- Y. Luo (SG) Nanyang Technological University
- B. Li (CN) South China Normal University
- Y. Zhang (CN) Northeastern University
- J. Auguste (FR) XLIM Research Institute
- G. Humbert (FR) XLIM Research Institute
Abstract
Abstract
A temperature-independent bending sensor is proposed and developed based on hollow core microstructured optical fiber (HC-MOF). The device consists of a section of HC-MOF sandwiched by two segments of single mode fibers with the central-alignment. The nonlinear bending response is simulated and demonstrated experimentally.