Non-synchronous Optical Sampling and Data-Pattern Recovery Using a Repetition-Rate-Tunable Carbon-Nanotube Pulsed Laser
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概要
- 論文の詳細を見る
We demonstrate a non-synchronous all-optical sampling system using a carbon-nanotube mode-locked laser with a tunable repetition-rate. This allows a stable and unambiguous waveform reconstruction without the inherent limitation encountered in conventional non-synchronous optical sampling such as the time-direction ambiguity and the frequency-hole or sparse-sampling phenomena. Real-time eye-diagram reconstruction of 160 Gbit/s return-to-zero (RZ) signals with sub-picosecond resolution and data-pattern recovery with sequence length up to $2^{17} - 4$ has be realized.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2008-08-25
著者
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Set Sze
Alnair Laboratories Corporation
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Yamashita Shinji
The University Of Tokyo
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Goh Chee
Alnair Laboratories Corporation, Tokyo 154-0005, Japan
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Yaguchi Hiroshi
Alnair Laboratories Corporation, Tokyo 154-0005, Japan
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Set Sze
Alnair Laboratories Corporation, Tokyo 154-0005, Japan
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Wang Dexiang
Alnair Laboratories Corporation, Tokyo 154-0005, Japan
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- Optically Manipulated Deposition of Carbon Nanotubes onto Optical Fiber End
- Non-synchronous Optical Sampling and Data-Pattern Recovery Using a Repetition-Rate-Tunable Carbon-Nanotube Pulsed Laser