Companding Scheme for Peak-to-Average Power Ratio Reduction in Optical Orthogonal Frequency Division Multiplexing Systems
スポンサーリンク
概要
- 論文の詳細を見る
- 2012-12-01
著者
-
Namihira Yoshinori
Graduate School Of Engineering And Science University Of The Ryukyus
-
Zou Nianyu
Research Institute Of Electrical Communication Tohoku University
-
YANG Yi
Research Institute of Photonics, Dalian Polytechnic University
-
WANG Dong
Information and Electronics Technology Laboratory, Beijing University of Posts and Telecommunications
-
CUI Gaofeng
Information and Electronics Technology Laboratory, Beijing University of Posts and Telecommunications
-
ZHANG Yinghai
Information and Electronics Technology Laboratory, Beijing University of Posts and Telecommunications
関連論文
- Design of Highly Nonlinear Dispersion-Flattened Square Photonic Crystal Fiber for Medical Applications
- Polarization-Maintaining Photonic Crystal Fibers with Near-Zero Flattened Dispersion in 1.06μm Waveband for Medical Applications
- Measurements of Mode Field Diameter and Effective Area of Photonic Crystal Fibers by Far-Field Scanning Technique
- Photonic Crystal Fiber with Ultra-Flattened Chromatic Dispersion, Low Confinement and Bending Losses : Photonic Crystal Fibers with Ultra-Flattened Chromatic Dispersion would be Useful for Optical Communication Systems
- Dispersion Compensating Square Photonic Crystal Fiber for Optical Communication Systems
- Design of Highly Nonlinear Birefringent Photonic Crystal Fibers with Ultra-Flattened Chromatic Dispersion
- A Unique Approach in Ultra-Flattened Dispersion Photonic Crystal Fibers Containing Elliptical Air-holes
- Multiple Defect-core Hexagonal Photonic Crystal Fiber with Flattened Dispersion and Polarization Maintaining Properties
- A Novel Defected Elliptical Pore Photonic Crystal Fiber with Ultra-Flattened Dispersion and Low Confinement Losses(Optoelectronics)
- Dispersion-Flattened Modified Hexagonal Photonic Crystal Fibers with Low Confinement Loss
- Dispersion and Confinement Loss Control in Modified Hexagonal Photonic Crystal Fibers
- Broadband Nearly-Zero Ultra-Flattened Dispersion Single Mode Index Guiding Holey Fiber
- Flattened Chromatic Dispersion in Square Photonic Crystal Fibers with Low Confinement Losses
- Broadband dispersion compensating octagonal photonic crystal fiber for optical communication applications
- Design of a Decagonal Photonic Crystal Fiber for Ultra-Flattened Chromatic Dispersion(Optoelectronics)
- Highly Nonlinear Dispersion-Flattened Square Photonic Crystal Fibers with Low Confinement Losses
- Novel Square Photonic Crystal Fibers with Ultra-Flattened Chromatic Dispersion and Low Confinement Losses(Optoelectronics)
- Numerical Investigation of Octagonal Photonic Crystal Fibers with Strong Confinement Field(Optoelectronics)
- A Novel Photonic Crystal Fiber Design for Large Effective Area and High Negative Dispersion
- An Integrated Acoustooptic Frequency Shifter Driven by Surface Acoustic Wave for 1.55 μm Optical Wavelength
- B-13-1 Polarization Mode Dispersion Characteristics Analysis of Optical Fiber based on Delayed Self-Heterodyne OFDR Technique
- B-13-19 Measurement of Polarization Mode Dispersion of Single Mode Fiber based on Optical Frequency Domain Reflectometry Technique
- Guiding Properties of Modified Triangular Lattice Photonic Crystal Fibers
- Broadband Supercontinuum Spectrum Generated Highly Nonlinear Photonic Crystal Fiber Applicable to Medical and Optical Communication Systems
- Design of Highly Nonlinear Dispersion Flattened Hexagonal Photonic Crystal Fibers for Dental Optical Coherence Tomoaranhv Annlications
- Design of Highly Nonlinear Octagonal Photonic Crystal Fiber with Near-Zero Flattened Dispersion at 1.31 μm Waveband
- Broadband Dispersion Compensating Octagonal Photonic Crystal Fiber for Optical Communication Applications
- An Integrated Acoustooptic Frequency Shifter Driven by Surface Acoustic Wave for 1.55 μm Optical Wavelength
- Supercontinuum Generation at 1.55μm Using Highly Nonlinear Photonic Crystal Fiber for Telecommunication and Medical Applications
- Center Wavelength Adoption Techniques for Supercontinuum Generating Highly Nonlinear Noncircular Core Photonic Crystal Fiber
- Companding Scheme for Peak-to-Average Power Ratio Reduction in Optical Orthogonal Frequency Division Multiplexing Systems