Presentation 2002/6/28
Enhancement of the Number of Optical Frequency Channels in a Pulse-type Multiwavelength Light Source using an Optical Ring Circuit with Serrodyne Modulation
Isao TOMITA, Hiroaki SANJOH, Eiichi YAMADA, Yuzo YOSHIKUNI,
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Abstract(in English) A pulse-type multiwavelength light source (PMLS) is a promising light source for wavelength division multiplexed (WDM) optical communications since the channel spacing which is equal to the repetition frequency of optical pulses is easily sustainable with high accuracy. In this article, we have proposed a novel scheme that increases the number of optical frequency channels by superposing a series of optical frequencies created by serrodyne modulation in an optical ring circuit, and have confirmed the performance experimentally. Since the scheme is implemented without using high-cost, special optical components, the system can easily be well controlled.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Optical pulses / Multiwavelength light source / Serrodyne modulation / Optical ring circuit
Paper # LQE2002-100
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Committee LQE
Conference Date 2002/6/28(1days)
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Registration To Lasers and Quantum Electronics (LQE)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) Enhancement of the Number of Optical Frequency Channels in a Pulse-type Multiwavelength Light Source using an Optical Ring Circuit with Serrodyne Modulation
Sub Title (in English)
Keyword(1) Optical pulses
Keyword(2) Multiwavelength light source
Keyword(3) Serrodyne modulation
Keyword(4) Optical ring circuit
1st Author's Name Isao TOMITA
1st Author's Affiliation NTT Photonics Laboratories, NTT Corporation()
2nd Author's Name Hiroaki SANJOH
2nd Author's Affiliation NTT Photonics Laboratories, NTT Corporation
3rd Author's Name Eiichi YAMADA
3rd Author's Affiliation NTT Photonics Laboratories, NTT Corporation
4th Author's Name Yuzo YOSHIKUNI
4th Author's Affiliation NTT Photonics Laboratories, NTT Corporation
Date 2002/6/28
Paper # LQE2002-100
Volume (vol) vol.102
Number (no) 189
Page pp.pp.-
#Pages 4
Date of Issue