Humidity and Temperature Sensing Using an Optical Fiber and a Corner Cube Prism
スポンサーリンク
概要
- 論文の詳細を見る
An optical sensing method for the measurement of humidity and temperature, which uses a sensor head composed of a cholesteric liquid crystal (LC) cell and a corner cube prism coated with a cobalt chloride (CoCl_2) film is proposed. The CoCl_2 film is used as a color reaction reagent for measuring the humidity. The temperature is measured by the shift of the selective reflection band of the cholesteric LC cell. In addition, an OTDR method is applied to measure the humidity and temperature, and the location of the sensor head is also determined.
- 社団法人応用物理学会の論文
- 1999-02-15
著者
-
KAWAMURA Marenori
Department of Electrical and Electronic Engineering, Akita University
-
Kawamura Marenori
Department Of Electrical And Electronic Engineering Akita University
-
Sato Susumu
Department Of Electrical And Electronic Engineering Akita University
-
Takeuchi Takami
Department Of Electrical And Electronic Engineering Akita University
-
Fuad Hairul
Department Of Electrical And Electronic Engineering Akita University
関連論文
- Determination of Anchoring Energy in Nematic Liquid Crystal Cells with Controllable Twist Angles Using a Stokes Parameter Method
- Measurements of Cell Thickness Distributions in Reflective Liquid Crystal Cells Using a Two-Dimensional Stokes Parameter Method : Structure and Mechanical and Thermal Properties of Condensed Matter
- An Optical Sensing System Using Liquid Crystal Cells and a Corner Cube Prism Coated with Dye Films for Simultaneous Detection of an Electric Field and Decomposition Products of SF_6
- Properties of Variable-Focus Liquid Crystal Lens and Its Application in Focusing System
- Liquid Crystal Negative Lens
- 3C04 Converting Fixed Focus Lens to Variable-Focus Lens Using Liquid Crystal Layers
- Liquid Crystal Lens With Spherical Electrode
- 3A16 Study of a Novel Liquid Crystal Lens
- Novel Method for Pretilt Angle Measurement Using Liquid Crystal Lens Cell with Hybrid Alignment
- 3D12 Study of the Molecular Alignment and Optical Properties of a Liquid Crystal Lens
- Improvement of Decay Properties of a Liquid Crystal Microlens with a Divided Electrode Structure
- Study on the Mechanism of Noise Generation from Railway Wheel and its Countermeasures : 6th Report, Noise reduction by a Damped Wheel
- Liquid Crystal Display Devices with Slit-Patterned Electrode Structures
- Molecular Orientations and Optical Transmission Properties of Liquid Crystal Cells with Slit-Patterned Electrodes
- Diffraction and Polarization Properties of a Liquid Crystal Grating
- Optical Haar Wavelet Transforms with Liquid Crystal Elements
- Optical Performance of Liquid Crystal Cells with Asymmetric Slit-Patterned Electrodes in Various Applied Field Configurations
- Vibration Reduction of a Railway Wheel by Cantilever-Type Dynamic Absorbers : Optimal Adjustment of Absorbers and Experiment
- Transient Properties of a Liquid-Crystal Microlens : Structure and Mechanical and Thermal Properties of Condensed Matter
- Semiactive Control of Duct Noise by a Volume-Variable Resonator
- Application of a Circularly Homogeneously Aligned Liquid-Crystal Cell to Real-Time Measurements of Twist Angles in twisted-Nematic Liquid-Crystal Cells
- Polarization-Independent Optical Properties of Liquid Crystal Polarization-Converting Devices
- Optimization of Device Parameters for Minimizing Spherical Aberration and Astigmatism in Liquid Crystal Microlenses
- Enhancement of Numerical Aperture of Liquid Crystal Microlenses Using a Stacked Electrode Structure
- Optical Haar Wavelet for Extracting Edge Features along Arbitrary Directions
- Optical Properties of Anamorphic Liquid Crystal Microlenses and Their Application for Laser Diode Collimation
- Influence of Elastic Constants on the Optical Properties of Liquid Crystal Microlenses
- A Two-Dimensional Pretilt Angle Distribution Measurement of Twisted Nematic Liquid Crystal Cells Using Stokes Parameters at Plural Wavelengths
- S-B-3. Clinical Evaluation of Stereoencephalotomies for Pain Relief
- 9. The function of Nucleus Ruber in Human Body
- Generalized Relation Theory of Torque Balance Method for Azimuthal Anchoring Measurements
- A Two-Dimensional Stokes Parameter Method for Determination of Cell Thickness and Twist Angle Distributions in Twisted Nematic Liquid Crystal Devices
- A Novel Method for Determining the Cell Thickness and Twist Angle of a Twisted Nematic Cell by Stokes Parameter Measurement
- Properties of Full-Color Fluorescent Display Devices Excited by a UV Light-Emitting Diode
- Full-Color Fluorescent Display Devices Using a Near-UV Light-Emitting Diode
- Rectal Malignant Melanoma Diagnosed by N-Isopropyl-p-^I-Iodoamphetamine Single Photon Emission Computed Tomography and 5-S-Cysteinyl Dopa : Report of a Case
- A Novel Patterning Method of Liquid Crystal Alignment by Azimuthal Anchoring Control : Structure and Mechanical and Thermal Properties of Condensed Matter
- Imaging Properties of Double-Layered Liquid Crystal Microlens(Structure and Mechanical and Thermal Properties of Condensed Matter)
- Molecular Orientation States and Optical Properties of Liquid Crystal Microlenses with an Asymmetric Electrode Structure
- Liquid-Crystal Optical Rotator Using Weak Azimuthal Anchoring Surface : Structure and Mechanical and Thermal Properties of Condensed Matter
- Molecular Orientation Analysis of a Design Concept for Optical Properties of Liquid Crystal Microlenses : Structure and Mechanical and Thermal Properties of Condensed Matter
- Millimeter-Wave Deflection Properties of Liquid Crystal Prism Cells With Stack-Layered Structure
- Absorption Edges of RF Sputtered Zn_xCd_S Films
- Light Scattering Properties in a Homeotropic-Aligned Liquid Crystal Microlens Array
- Electrical Properties of Ni-Cr-N Thin Films Deposited by Multitarget Reactive Sputtering : Surfaces, Interfaces, and Films
- 197. Clinical Observation of Spontaneous Low Spinal Fluid Pressure Syndrome
- Detection of HIV-RNA in Aqueous Humor and Subretinal Fluid in an HIV Carrier with Rhegmatogenous Retinal Detachment
- Memory Effects of Light Transmission Properties in Polymer-Dispersed-Liquid-Crystal (PDLC) Films
- 3B11 Pretilt Measurement Using Hybrid Alignment Liquid Crystal Lenses
- Milticolor Switching Properties inFluorescent Liquid Crystal Displays
- Patterned Alignment of Liquid Crystal on Photopolymer by Single-Exposure Photocuring Process
- A Novel Alignment Process in Liquid Crystal Cell Fabrication Using Reversible Poly (Vinyl-Cinnamate) Photoalignment Technique
- Alignment of Liquid Crystal on Poly(Vinyl Cinnamate)Photopolymer and Anchoring Direction
- Reverse Mode and Wide Viewing Angle Properties in Polymer Dispersed Liquid Crystal Cells Prepared Using a UV Curable Liquid Crystal
- Cross-Sectional Observations of Laser Addressed UV Curable Smectic Liquid Crystal Cells
- A Radial Molecular Orientation Using a Flow-Induced Aligning Method in a Nematic Liquid Crystal Cell
- Alignment of Liquid Crystals by Copying an Aligning Function of Polymer Films into a UV Cured Polymer Surface
- Relationship between Film Thickness and Electro-Optical Properties in Polymer Dispersed Liquid Crystal Films
- Effects of Surface Acoustic Waves on Molecular Orientation in Nematic Liquid Crystals
- Cylindrical Liquid Crystal Lens and Its Applications in Optical Pattern Correlation Systems
- Millimeter-Wave Transmission Properties of Nematic Liquid-Crystal Cells with a Grating-Patterned Electrode Structure
- Optical Properties of Liquid Crystal Lens of Any Size : Optics and Quantum Electronics
- Liquid Crystal Anamorphic Lens
- PD11 A New Liquid Crystal Prism with an External Electrode
- 3A17 A Liquid Crystal Lens with an Intermediate Insulating Layer
- Vibrational Relaxation Measurements of Methane by a Lazser Schlieren
- Optical Properties of a Polymer-Stabilized Liquid Crystal Microlens
- Visualization of Molecular Orientation by Using a UV-Curable Liquid Crystal
- Optical Properties of a Polarization Converting Device Using a Nematic Liquid Crystal Cell
- A Liquid Crystal Microlens with Hole-Patterned Electrodes on Both Substrates
- Optical Properties of a Liquid Crystal Microlens with a Symmetric Electrode Structure
- Memory Effects in Nematic Liquid Crystals by a Surface Molecular Reorientation
- Improvement of Negative Lens Property of Liquid Crystal Device
- Image Formation Using Liquid Crystal Lens
- Aberration Measurements of a Liquid Crystal Lens Prepared Using a Glass Lens and Liquid Crystal Layers
- Wavefront Aberrations of a Liquid Crystal Lens with Focal Length Variable from Negative to Positive Values
- Properties of Liquid Crystal Lens with Stacked Structure of Liquid Crystal Layers
- Study of Liquid Crystal Lens with Focus Movable in Focal Plane by Wave Front Analysis
- Optical Trapping and Manipulation System Using Liquid-Crystal Lens with Focusing and Deflection Properties
- Liquid Crystal Lens Array with Hexagonal-Hole-Patterned Electrodes
- Double-Layer Liquid Crystal Lens
- Liquid Crystal Lens with Insulator Layers for Focusing Light Waves of Arbitrary Polarizations
- Electrooptical and Response/Relaxation Properties of Liquid Crystal Cells in In-plane Switching Mode with Polyvinylcinnamate Photoinduced Alignment Layer
- Quenching of Fluorescence in Europium β-Diketone Chelate Solutions and Its Application to Display Devices
- Some Properties of Europium β-diketone Chelates I : Synthesis and Fluorescent Properties
- Thermoelectric Properties and Hall Effect of Bi2Te3-xSex Polycrystalline Materials Prepared by a Hot Press Method
- Application of a Ferroelectric Liquid-Crystal Cell to an Electric Field Sensor
- Light Scattering Effects in a Randomly Arranged Liquid Crystal Microlens Array
- Effect of SiO2(1.2 μm)/Ti-Foil Substrate Nitridation on GaN Thin Films Grown by Reactive Evaporation Method
- Novel Liquid Crystal Grating with a Relief Structure by a Simple UV Irradiation Process
- A Double-Layer Polymer/Liquid-Crystal Grating with Polarization Direction-Independent Diffraction Properties
- Optical and Electrical Logic Operations by a Liquid Crystal Bistable Optical Device
- Improvement of Optical Properties and Beam Steering Functions in a Liquid Crystal Microlens with an Extra Controlling Electrode by a Planar Structure
- Flip-Flop and Oscillating Behavior Obtained with Serial Connection of Liquid Crystal Bistable Optical Device Pixels
- Humidity and Temperature Sensing Using an Optical Fiber and a Corner Cube Prism
- S-C-3. The So-Called"Whiplash Injury"
- 21. Ventriculosagittal Sinus Shunt in Hydrocephalus (Proceedings of the XXVth Annual Meeting of the Japan Neurosurgical Society)
- Transient Properties of a Liquid Crystal Optical Device with an Elliptical Intensity Distribution
- Determination of Anchoring Energy in Nematic Liquid Crystal Cells with Controllable Twist Angles Using a Stokes Parameter Method
- Sensing of Decomposition Products in SF 6 by Use of a Corner Cube Prism Coated with a Dye Film as an Optical Sensor Head