Experimental investigation on gain-dependent chromatic dispersion of the semiconductor optical amplifier

Abstract

Using a chromatic-dispersion analysis method based on K–K transformation of the gain spectrum, we experimentally investigated the chromatic dispersion of semiconductor optical amplifier in detail within the wavelength range from 1530nm to 1610nm. Experimental results demonstrate that there are three typical dispersion regions, which are abnormal dispersion, flatten dispersion and normal dispersion region, and three zero-dispersion points, which exist around 1550nm, 1580nm and 1600nm, over the wide wavelength range of 80nm. With an increase in bias current on SOA, wavelengths of the three zero dispersion points all had a blue shift and the three near-zero dispersion regions corresponding became wider. However, the three near-zero dispersion regions corresponding became narrower when the input optical power increased. Therefore, the dispersion of SOA can be flexibly adjusted by changing the bias current and input optical power to SOA.