Crosstalk behavior of multi-core fiber with structural parameter drift in longitudinal direction
スポンサーリンク
概要
- 論文の詳細を見る
An impact of longitudinal structural parameter drift on crosstalk behavior of multi-core fibers is investigated with a newly proposed semi-analytical method which can easily simulate crosstalk under the various kinds of parameter drifts. The simulation results indicate that the structural parameter drift has an important role in moderating bending diameter dependence of crosstalk of multi-core fibers.
- Institute of Electronics, Information and Communication Engineersの論文
著者
-
Koshiba Masanori
Graduate School Of Information Sci. And Technol. Hokkaido Univ.
-
Saitoh Kunimasa
Graduate School Of Information Sci. And Technol. Hokkaido Univ.
-
Saitoh Kunimasa
Division Of Electronics And Information Engineering Graduate School Of Engineering Hokkaido Universi
-
Koshiba Masanori
Division Of Electronics And Information Engineering Faculty Of Engineering Hokkaido University
-
Matsuo Shoichiro
Fujikura Ltd. Sakura‐shi Jpn
-
Saitoh Kunimasa
Division Of Media And Network Technology Graduate School Of Information Science And Technology Hokka
-
Matsuo Shoichiro
Optics and Electronics Laboratory, Fujikura Ltd.
-
Takenaga Katsuhiro
Optics and Electronics Laboratory, Fujikura Ltd.
-
Arakawa Yoko
Optics and Electronics Laboratory, Fujikura Ltd.
-
Sasaki Yusuke
Optics and Electronics Laboratory, Fujikura Ltd.
-
Tanigawa Shoji
Optics and Electronics Laboratory, Fujikura Ltd.
-
Arakawa Yoko
Optics And Electrical Laboratory Fujikura Ltd.
-
Tanigawa Shoji
Optics And Electrical Laboratory Fujikura Ltd.
-
Matsuo Shoichiro
Optics And Electrical Laboratory Fujikura Ltd.
-
Takenaga Katsuhiro
Optics And Electrical Laboratory Fujikura Ltd.
-
Koshiba Masanori
Division of Media and Network Technologies, Hokkaido University
関連論文
- Design of effectively single-mode leakage channel fibers with large mode area and low bending loss
- Fundamental Characteristics of Localized Acoustic Modes in Photonic Crystal Fibers(Optical Fibers, Cables and Fiber Devices, Recent Progress in Optoelectronics and Communications)
- Full-Vector Analysis of Photonic Crystal Fibers by the Finite Element Method
- Detailed theoretical investigation of bending properties in solid-core photonic bandgap fibers
- Photonic Bandgap Fiber Filter Design Based on Nonproximity Resonant Coupling Mechanism
- Realistic Design of Large-Hollow-Core Photonic Band-Gap Fibers With Suppressed Higher Order Modes and Surface Modes
- Design of effectively single-mode air-core photonic bandgap fiber with improved transmission characteristics for the realization of ultimate low loss waveguide
- Design of photonic band gap fibers with suppressed higher-order modes: Towards the development of effectively single mode large hollow-core fiber platforms
- Non-proximity resonant tunneling in multi-core photonic band gap fibers: An efficient mechanism for engineering highly-selective ultra-narrow band pass splitters
- The role of artificial defects for engineering large effective mode area, flat chromatic dispersion, and low leakage losses in photonic crystal fibers: Towards high speed reconfigurable transmission platforms
- A novel approach for designing photonic crystal fiber splitters with polarization-independent propagation characteristics
- A novel approach for designing photonic crystal fiber splitters with polarization-independent propagation characteristics
- A novel approach for designing photonic crystal fiber splitters with polarization-independent propagation characteristics
- Full-vectorial coupled mode theory for the evaluation of macro-bending loss in multimode fibers. application to the hollow-core photonic bandgap fibers
- Numerical Modeling of Cryogenic Temperature Sensors Based on Plasmonic Oscillations in Metallic Nanoparticles Embedded Into Photonic Crystal Fibers
- Theoretical Prediction of Thermooptical and Structurally Disordered Sensitivities in Metallo-Dielectric Photonic Crystals
- Fluidic Sensors Based on Photonic Crystal Fiber Gratings: Impact of the Ambient Temperature
- An Anisotropic PML for Finite Element Beam Propagation Analysis of Anisotropic Optical Waveguides
- Beam Propagation Method for Three-Dimensional Surface Acoustic Waveguides
- Coupling Characteristics of Multicore Photonic Crystal Fiber-Based 1 × 4 Power Splitters
- Thermooptical Sensitivity Analysis of Highly Birefringent Polarimetric Sensing Photonic Crystal Fibers With Elliptically Elongated Veins
- Apodized photonic crystal waveguide gratings
- Design and analysis of a broadband dispersion compensating photonic crystal fiber Raman amplifier operating in S-band
- C-3-87 Multi-Core Photonic Band Gap Fiber Splitters Based on Highly-Selective Non-Proximity Resonant Coupling
- C-3-82 Thermo-Optical Sensitivity of Polarimetric-Sensing Photonic Crystal Fibers
- The impact of elliptical deformations for optimizing the performance of dual-core fluorine-doped photonic crystal fiber couplers
- Chromatic dispersion profile optimization of dual-concentric-core photonic crystal fibers for broadband dispersion compensation
- Design of narrow band-pass filters based on the resonant-tunneling phenomenon in multi-core photonic crystal fibers
- Understanding formation of photonic bandgap edge for maximum propagation angle in all-solid photonic bandgap fibers
- Multiple resonant coupling mechanism for suppression of higher-order modes in all-solid photonic bandgap fibers with heterostructured cladding
- FEM-Based Electromagnetic Wave Simulator Running on Some Platforms by Use of Java and a Commercial Tool(Analytical and Simulation Methods for Electromagnetic Wave Problems)
- FEM-Based Electromagnetic Wave Simulator Running on Some Platforms by Use of Java and a Commercial Tool
- Design and characterization of single-mode holey fibers with low bending losses
- Endlessly single-mode holey fibers: the influence of core design
- Investigation on multi-core fibers with large Aeff and low micro bending loss
- Low-Bending-Loss and Low-Splice-Loss Single-Mode Fibers Employing a Trench Index Profile(Optical Fibers, Cables and Fiber Devices, Recent Progress in Optoelectronics and Communications)
- Holey Fibers for Low Bending Loss (Optoelectronics)
- Crosstalk behavior of cores in multi-core fiber under bent condition
- Software for a Multilayered Surface Acoustic Wave Device Based on the Finite Element Method and Coupling-of-Modes Theory
- Full-Vector Analysis of Photonic Crystal Fibers Using the Finite Element Method(Special Issue on Optical Fibers and Devices)
- Multiple resonant coupling mechanism for higher-order-modes' suppression in all-solid photonic bandgap fibers with heterostructured cladding (光ファイバ応用技術)
- Multiple resonant coupling mechanism for higher-order-modes' suppression in all-solid photonic bandgap fibers with heterostructured cladding
- Simple and Efficient Adaptive Mesh Generation for Approximate Scalar Guided-Mode and Beam-Propagation Solutions (Special Issue on Computational Electromagnetics)
- Crosstalk behavior of multi-core fiber with structural parameter drift in longitudinal direction
- An Investigation on Crosstalk in Multi-Core Fibers by Introducing Random Fluctuation along Longitudinal Direction
- Modeling of Photonic Crystal Fibers
- Computational Electromagnetics Applied to Design and Modeling of Photonic Crystal Fibers
- 3-Dimensional Beam Propagation Analysis of Nonlinear Optical Fibers
- Limitations of Approximate Scalar Theory for 3-D Nonlinear Optical Waveguides
- Recent Trend of Electromagnetic Theory in Advanced Technology and Society
- Large-effective-area ten-core fiber with cladding diameter of about 200 μm
- Multi- core fiber design and analysis : coupled-mode theory and coupled-power theory
- A large effective area multi-core fiber with an optimized cladding thickness
- Selective mode excitation and discrimination of four-core homogeneous coupled multi-core fiber
- Yb-Doped and Hybrid-Structured Solid Photonic Bandgap Fibers and Linearly-Polarized Fiber Lasers Oscillating above 1160nm
- Design and analysis of large-effective-area heterogeneous trench-assisted multi-core fiber
- A bend-insensitive heterogeneous trench-assisted multi-core fiber with large effective area (光通信システム)
- B-13-44 Low Crosstalk Heterogeneous Multi-Core Fibers under Bending Condition
- Curvilinear triangular-prism element for computation of band structure in photonic crystal slab
- A bend-insensitive heterogeneous trench-assisted multi-core fiber with large effective area