S–C–L triple wavelength superluminescent source based on an ultra-wideband SOA and FBGs

Abstract

We propose and demonstrate a wide-band semiconductor optical amplifier (SOA) based triple-wavelength superluminescent source with the output in the S-, C- and L-band regions. The proposed systems uses an ultra-wideband SOA with an amplification range from 1440 to as the linear gain medium. Three fibre Bragg gratings (FBGs) with centre wavelengths of 1500, 1540 and are used to generate the lasing wavelengths in the S-, C- and L-bands respectively, while a variable optical attenuator is used to finely balance the optical powers of the lasing wavelengths. The ultra-wideband SOA generates an amplified spontaneous emission (ASE) spectrum with a peak power of at the highest SOA drive current, and also demonstrates a down-shift in the centre wavelength of the generated spectrum due to the spatial distribution of the carrier densities. The S-band wavelength is the dominant wavelength at high drive currents, with an output power of as compared to the C- and L-bands, which only have powers of and , respectively. All wavelengths have a high average signal-to-noise ratio more than at the highest drive current of , and the system also shows a high degree of stability, with power fluctuations of less than within . The proposed system can find many applications where a wide-band and stable laser source is crucial, such as in communications and sensing.