Fabrication of Photonic Bandgap Fiber Gas Cell Using Focused Ion Beam Cutting
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we present a novel low-loss splice for use between the photonic bandgap fiber (PBGF) and the conventional step index fiber to make PBGFs more functional. The gap between the butt-coupled fibers is the most important parameter for maintaining good output coupling efficiency and allowing gas diffusion. To achieve the small gap, a focused ion beam (FIB) milling technique was developed to clean the fiber surface. The gap is adjustable from 0 to 400 μm, and the typical connection loss at a gap of 20 μm is 1.6 dB. A measurement system for low gas concentrations based on the PBGF cell has been developed and implemented. Experiments for measuring ammonia gas at the ppm level were performed. The basic peak agreed well with the database of the Pacific Northwest National Laboratory (PNNL), meaning that this method can be used to accurately and effectively measure gas concentration.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2009-06-25
著者
-
Pawlat Joanna
Graduate School Of Information Production And Systems Waseda University
-
Ueda Toshitsugu
Graduate School Of Information Production And Systems Waseda Univ.
-
Li Xuefeng
Graduate School Of Information Production And Systems Waseda University
-
Liang Jinxing
Graduate School Of Information Production And Systems Waseda University
-
Xu Guan
Graduate School Of Information Production And Systems Waseda University
-
Liang Jinxing
Graduate School of Information, Production and Systems, Waseda University, Kitakyushu 808-0135, Japan
-
Xu Guan
Graduate School of Information, Production and Systems, Waseda University, Kitakyushu 808-0135, Japan
-
Ueda Toshitsugu
Graduate School of Information, Production and Systems, Waseda University, Kitakyushu 808-0135, Japan
関連論文
- Sensing System for Multiple Measurements of Trace Elements Using Laser-Induced Breakdown Spectroscopy
- Differential Platinum Thin Film Hydrogen Gas Sensor Fabricated by MEMS Techniques
- Improvement of a Micro-Droplet Guiding Technique for Laser-Induced Breakdown Spectroscopy
- Low Concentration Gas Measurement Using Photonic Bandgap Fiber Cell Sensor
- Particle Element and Size Simultaneous Measurement Using LIBS
- Development of Solution Measurement Using Laser-Induced Breakdown Spectroscopy Integrated with Micro-Droplet Ejection System
- Photonic Bandgap Fiber for a Sensing Device
- Thermo-Resistive Platinum Thin Film Hydrogen Gas Sensor Fabricated by MEMS Techniques
- Fabrication of Two-Axis Quartz MEMS-Based Capacitive Tilt Sensor
- Wet Etched High Aspect Ratio Microstructures on Quartz for MEMS Applications
- In-situ Measurement for Gas Concentrations using Tunable Lasers
- Deblur of Radially Variant Blurred Image for Single Lens System
- Development of Highly Integrated Quartz Micro-Electro-Mechanical System Tilt Sensor
- D-12-97 A Detecting Strategy for Vehicle Wheels Alignment Angles
- Thermomechanical Fatigue Performance of Lead-Free Chip Scale Package Assemblies with Fast Cure and Reworkable Capillary Flow Underfills (Special Issue : Advanced Metallization for ULSI Applications)
- Board-Level Solder Joint Reliability of Edge- and Corner-Bonded Lead-Free Chip Scale Package Assemblies Subjected to Thermal Cycling (Special Issue : Solid State Devices and Materials (2))
- Development of Carbonaceous Particle Size Analyzer Using Laser-induced Incandescence Technology
- Design and Fabrication of Quartz Micro-Electro-Mechanical System-Based Double-Ended Tuning Fork with Variable Sections
- Vibration Analysis of Original Shape Quartz Resonator for High Quality Factor Realization
- High-Sensitivity Fiber-Optic Fabry--Perot Interferometer Temperature Sensor
- Fabrication of Photonic Bandgap Fiber Gas Cell Using Focused Ion Beam Cutting
- Doubled Optical Path Length for Photonic Bandgap Fiber Gas Cell Using Micromirror
- Damping Characteristics of Quartz Tilt Sensor with Nonparallel Comb Electrode