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Publications by Masanori Koshiba

Multi-Core Fiber Design and Analysis: Coupled-Mode Theory and Coupled-Power Theory

Optics Express

English

A Large Effective Area Multi-Core Fiber With an Optimized Cladding Thickness

English

Design and Characterization of Single-Mode Holey Fibers With Low Bending Losses

English

Full-Vectorial Coupled Mode Theory for the Evaluation of Macro-Bending Loss in Multimode Fibers. Application to the Hollow-Core Photonic Bandgap Fibers

English

Design of Effectively Single-Mode Air-Core Photonic Bandgap Fiber With Improved Transmission Characteristics for the Realization of Ultimate Low Loss Waveguide

English

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

English

Non-Proximity Resonant Tunneling in Multi-Core Photonic Band Gap Fibers: An Efficient Mechanism for Engineering Highly-Selective Ultra-Narrow Band Pass Splitters

English

Design of Narrow Band-Pass Filters Based on the Resonant-Tunneling Phenomenon in Multi-Core Photonic Crystal Fibers

English

Fluidic Sensors Based on Photonic Crystal Fiber Gratings: Impact of the Ambient Temperature

IEEE Photonics Technology Letters

Electronic Engineering

English

Photonic Bandgap Fiber Filter Design Based on Nonproximity Resonant Coupling Mechanism

IEEE Photonics Technology Letters

Electronic Engineering

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Masanori Koshiba

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

Design and Characterization of Single-Mode Holey Fibers With Low Bending Losses

Full-Vectorial Coupled Mode Theory for the Evaluation of Macro-Bending Loss in Multimode Fibers. Application to the Hollow-Core Photonic Bandgap Fibers

Design of Effectively Single-Mode Air-Core Photonic Bandgap Fiber With Improved Transmission Characteristics for the Realization of Ultimate Low Loss Waveguide

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

Non-Proximity Resonant Tunneling in Multi-Core Photonic Band Gap Fibers: An Efficient Mechanism for Engineering Highly-Selective Ultra-Narrow Band Pass Splitters

Design of Narrow Band-Pass Filters Based on the Resonant-Tunneling Phenomenon in Multi-Core Photonic Crystal Fibers

Fluidic Sensors Based on Photonic Crystal Fiber Gratings: Impact of the Ambient Temperature

Photonic Bandgap Fiber Filter Design Based on Nonproximity Resonant Coupling Mechanism