Presentation	1999/5/14 Highly Accurate Effective Area (Aeff) Measurement System by Far-Field Scan (FFS) Technique using Tunable Laser Source Yoshinori NAMIHIRA, Taratam Ajchareeyasoontom,
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Abstract(in English)	Effective area (Aeff) is a important parameter that is closely related to the optical fiber nonlinearities that will affect the transmission quality of the optical fiber systems, especially in long-haul optically amplified systems. Therefore, we have developed highly accurate Aeff measurement system by Far-Field Scan (FFS) technique using tunable laser source. This system's measurable wavelength range is 1520 ~ 1610 nm, scan angle and san step angle are 30 degree and ~1.5 degree, measuring dynamic range is ~60 dB, repeatability is +/- 0.02μm for Mode Field Diameter (MFD), and +/- 0.04μm^2 for Aeff.
Keyword(in Japanese)	(See Japanese page)
Keyword(in English)	Optical Fiber / Nolinear optics / Nonlinear Coefficientt (n2/Aeff) / Mode Field Diameter (MFD) / Effective Area (Aeff)
Paper #	OFT99-4
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Conference Information
Committee	OFT
Conference Date	1999/5/14(1days)
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Paper Information
Registration To	Optical Fiber Technology (OFT)
Language	JPN
Title (in Japanese)	(See Japanese page)
Sub Title (in Japanese)	(See Japanese page)
Title (in English)	Highly Accurate Effective Area (Aeff) Measurement System by Far-Field Scan (FFS) Technique using Tunable Laser Source
Sub Title (in English)
Keyword(1)	Optical Fiber
Keyword(2)	Nolinear optics
Keyword(3)	Nonlinear Coefficientt (n2/Aeff)
Keyword(4)	Mode Field Diameter (MFD)
Keyword(5)	Effective Area (Aeff)
1st Author's Name	Yoshinori NAMIHIRA
1st Author's Affiliation	KDD R&D Laboratories Inc.()
2nd Author's Name	Taratam Ajchareeyasoontom
2nd Author's Affiliation	KDD R&D Laboratories Inc.
Date	1999/5/14
Paper #	OFT99-4
Volume (vol)	vol.99
Number (no)	52
Page	pp.pp.-
#Pages	6
Date of Issue