All-Optical Analog-to-Digital Conversion Using Optical Delay Line Encoders(<Special Section>Evolution of Microwave and Millimeter-Wave Photonics Technology)
スポンサーリンク
概要
- 論文の詳細を見る
We propose and demonstrate the all-optical analog-to-digital conversion (ADC) using optical delay line encoders. Experimental results show that input analog signals are successfully converted into 3-bit digital signals at a bit rate of 40Gb/s.
- 社団法人電子情報通信学会の論文
- 2007-02-01
著者
-
KONISHI Tsuyoshi
Graduate School of Engineering, Osaka University
-
NISHITANI Takashi
Graduate School of Engineering, Osaka University
-
Itoh Kazuyoshi
Graduate School Of Engineering Osaka University
-
Itoh Kazuyoshi
Osaka University Department Of Applied Physics
-
Konishi Tsuyoshi
Graduate School Of Engineering Osaka University
-
Konishi T
Univ. Tokyo Tokyo Jpn
-
Konishi Tsuyoshi
Osaka University Graduate School Of Engineering Material And Life Science
-
Nishitani Takashi
Graduate School Of Engineering Osaka University
-
NISHITANI Takashi
Osaka University
-
Itoh Kazuyoshi
Osaka Univ. Osaka Jpn
-
KONISHI Tsuyoshi
Osaka University
関連論文
- All-Optical Analog-to-Digital Conversion System with a Spatial Coding Method Using Designed Filter
- Synthesis of Wave Plates Using Multilayered Subwavelength Structure
- An Adaptive Neural Network: Application to Character Recognition on X-ray Films
- Optical Time-to-Three-Dimensional (3-D) Space Interconversion System
- Amplitude and Phase Retrieval of Ultrashort Optical Pulse
- Artificial Neural Network That Can Say "Unknown"
- Designing a Binary Fourier-Phase-Only Correlation Filter Using a Simulated Annealing Algorithm
- Noise-Limitations of Coherence Imaging Based on Wavefront Folding Interferometry
- Interferometric Three-Dimensional Imaging Based on Retrieval of Generalized Radiance Distribution
- Suppression of Crosstalk in Header Recognition Based on Optical Correlation using Multiple-Object Discriminant Filter
- Design of Header Recognition Filter for Binary Phase Shift Keying in Header Recognition Unit using Time-Space Conversion
- Ultrafast Time-to-Two-Dimensional-Space Conversion System Using SHG Crystal
- Multichannel Spectral Imaging System for Measurements with the Highest Signal-to-Noise Ratio
- Control of Optical Pulse at Visible Region using Pulse Trapping by Soliton Pulse in Photonic Crystal Fibers
- Stabilized Generation of Wavelength Conversion by Using High-Accurate Self-Phase Modulation Based All-Optical Limiter
- Parallel Detection of Multiple Transitional Spectral Patterns Using Optical Spectrogram Scope
- Efficiency Improvement of Optical Pattern Recognition in Ultra-Fast All-Optical Intensity Equalizer
- Ultrafast All-Optical Intensity Stabilizer Based on Self Phase Modulation-Induced Spectral Pattern Change and Optical Pattern Recognition
- Discrimination of All Types of 4-Bit Optical Code by Optical Time-Gating and Designed Label Recognition Filter in Label Recognition Using Optical Correlation(Next Generation Photonic Network Technologies)
- Optical Spectrogram Scope Using Time-to-Two-Dimensional Space Conversion and Interferometric Time-of-Flight Cross Correlation
- All-Optical Analog-to-Digital Conversion Using Optical Delay Line Encoders(Evolution of Microwave and Millimeter-Wave Photonics Technology)
- Performance Analysis of Ultra-Fast All-Optical Analog-to-Digital Converter Using Optical Multiple-Level Thresholding Module Based on Self-Frequency Shift in Fiber(Evolution of Microwave and Millimeter-Wave Photonics Technology)
- Integration of a Proposed All-Optical Analog-to-Digital Converter using Self-Frequency Shifting in Fiber and a Pulse-Shaping Technique
- Design of a Label Recognition Filter for Crosstalk Suppression in a Label Recognition Unit using Optical Correlation Assuming the Assistance of Optical Time-Gating
- Synthesis of Wave Plates Using Multilayered Subwavelength Structure
- Suppression of Crosstalk in Header Recognition Based on Optical Correlation using Multiple-Object Discriminant Filter
- Sensitive Detection of Transitional Spectral Pattern Using Optical Spectrogram Scope
- 100-GS/s 5-Bit Real-Time Optical Quantization for Photonic Analog-to-Digital Conversion