Finely tunable 10-Gb/s signal wavelength conversion from 1530 to 1560-nm region using a super structure grating distributed Bragg reflector laser

Hiroshi Yasaka; Hiroaki Sanjoh; Hiroyuki Ishii; Yuzo Yoshikuni; Kunishige Oe

doi:10.1109/68.502087

Finely tunable 10-Gb/s signal wavelength conversion from 1530 to 1560-nm region using a super structure grating distributed Bragg reflector laser

Hiroshi Yasaka, Hiroaki Sanjoh, Hiroyuki Ishii, Yuzo Yoshikuni, Kunishige Oe

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Abstract

Finely tunable wavelength conversion of a 10-Gb/s signal is demonstrated to wavelengths ranged from 1530 to 1560 nm with spacings of 0.5 nm and accuracy of ±0.05 nm, where the Er³⁺ doped optical fiber amplifier has optical gain, by using a super structure grating distributed Bragg reflector laser. Transmission of a wavelength-converted 10-Gb/s signal within the entire target wavelength range over a 100-km optical fiber is also demonstrated using a dispersion-shifted optical fiber.

Original language	English
Pages (from-to)	764-766
Number of pages	3
Journal	IEEE Photonics Technology Letters
Volume	8
Issue number	6
DOIs	https://doi.org/10.1109/68.502087
Publication status	Published - 1996 Jun

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abstract = "Finely tunable wavelength conversion of a 10-Gb/s signal is demonstrated to wavelengths ranged from 1530 to 1560 nm with spacings of 0.5 nm and accuracy of ±0.05 nm, where the Er3+ doped optical fiber amplifier has optical gain, by using a super structure grating distributed Bragg reflector laser. Transmission of a wavelength-converted 10-Gb/s signal within the entire target wavelength range over a 100-km optical fiber is also demonstrated using a dispersion-shifted optical fiber.",

author = "Hiroshi Yasaka and Hiroaki Sanjoh and Hiroyuki Ishii and Yuzo Yoshikuni and Kunishige Oe",

year = "1996",

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AU - Yasaka, Hiroshi

AU - Sanjoh, Hiroaki

AU - Ishii, Hiroyuki

AU - Yoshikuni, Yuzo

AU - Oe, Kunishige

PY - 1996/6

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AB - Finely tunable wavelength conversion of a 10-Gb/s signal is demonstrated to wavelengths ranged from 1530 to 1560 nm with spacings of 0.5 nm and accuracy of ±0.05 nm, where the Er3+ doped optical fiber amplifier has optical gain, by using a super structure grating distributed Bragg reflector laser. Transmission of a wavelength-converted 10-Gb/s signal within the entire target wavelength range over a 100-km optical fiber is also demonstrated using a dispersion-shifted optical fiber.

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Finely tunable 10-Gb/s signal wavelength conversion from 1530 to 1560-nm region using a super structure grating distributed Bragg reflector laser

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