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High gain Raman amplifier with inherent gain flattening and dispersion compensation

✍ Scribed by Charu Kakkar; K. Thyagarajan

Book ID
103871215
Publisher
Elsevier Science
Year
2005
Tongue
English
Weight
180 KB
Volume
250
Category
Article
ISSN
0030-4018

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✦ Synopsis

We report here an inherently gain-flattened, high-gain discrete Raman fiber amplifier design with 21 dB net gain (Β±1.4 dB gain ripple) over 25 nm bandwidth. The amplifier design is based on a W-shape highly nonlinear fiber, in which, optimized spectral variation of leakage loss has been used to achieve inherent gain flattening of Raman gain. The proposed fiber has an additional advantage of having a high negative dispersion coefficient ($Γ€84 ps/km nm) over the operating range of wavelength and thus the designed discrete amplifier module, based on this fiber, is also capable of compensating dispersion accumulated in one span (70 km) of transmission through G.652 fiber. Hence, the designed module is proposed as a composite amplifier and dispersion-compensating unit for 25 nm bandwidth, which is capable of handling both attenuation and dispersion of one span of G. 652 transmission.

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Gain-flattened distributed Raman amplifier with 38-nm bandwidth using dual-pump wavelength
✍ Mohd Adzir Mahdi; Shou-Jong Sheih πŸ“‚ Article πŸ“… 2006 πŸ› John Wiley and Sons 🌐 English βš– 126 KB

## Abstract In this paper, a 38‐nm wideband gain‐flattened distributed Raman amplifier utilising two pump wavelengths is experimentally demonstrated. The pump combination of 1430 and 1456 nm with 26‐nm spacing has enabled a gain flatness of less than 1.1 dB at a Raman on‐off gain of 10 dB. The flat