10-Gbps, 1-μm waveband photonic transmission with a harmonically mode-locked semiconductor laser | Zendy

Naokatsu Yamamoto | Zendy; Hideyuki Sotobayashi | Zendy; Kouichi Akahane | Zendy; Masahiro Tsuchiya | Zendy; Keijiro Takashima | Zendy; Hiroyuki Yokoyama | Zendy

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10-Gbps, 1-μm waveband photonic transmission with a harmonically mode-locked semiconductor laser

Author(s) -

Naokatsu Yamamoto,

Hideyuki Sotobayashi,

Kouichi Akahane,

Masahiro Tsuchiya,

Keijiro Takashima,

Hiroyuki Yokoyama

Publication year - 2008

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.16.019836

Subject(s) - jitter , optics , laser , photonics , semiconductor laser theory , mode locking , transmission (telecommunications) , materials science , physics , optoelectronics , telecommunications , computer science

To open up a 1-microm waveband for photonic transport systems, we developed a hybrid and harmonically mode-locked semiconductor laser (MLL) that can transmit return-to-zero (RZ) optical signals at data rates on the order of gigabits per second. A single-mode hole-assisted fiber (HAF) was also developed for use as a 1-microm waveband signal transmission line. A stable optical pulse train with a repetition rate of 9.953 GHz, pulse width of 22 ps, and low timing jitter of 120 fs was obtained from a 1035-nm harmonically MLL. With these devices, we successfully demonstrated 1-microm waveband error-free transmission of a high-speed 10-Gbps RZ signal over a long distance of 7 km.

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