Title :
Picosecond Gain Recovery Dynamics in Semiconductor Optical Amplifiers and Three-Wavelength Devices
Author :
Wang, Li ; Tao, Sheng ; Liu, Liyong
Author_Institution :
Inf. Center, China Acad. of Transp. Sci., Beijing, China
Abstract :
Based on density matrix equations, a broad-band time-domain large-signal model for semiconductor optical amplifiers (SOAs) is established. Accounting for spectral hole burning, carrier heating and carrier density modulation (CDM), we analysis the gain dynamics in a SOA stimulated by a 1ps pump pulse. On picosecond timescale, the ultrafast component of gain recovery dynamics is wavelength dependency. Furthermore, in three-wavelength devices, the long-lived recovery tail induced by CDM can be reduced by proper continuous-wave assistant light in gain region close to gain transparency point. And then the full gain recovery time up to 1.04ps is obtained.
Keywords :
carrier density; high-speed optical techniques; optical hole burning; optical modulation; optical pumping; semiconductor optical amplifiers; transparency; CDM; SOA; broad-band time-domain large-signal model; carrier density modulation; carrier heating; continuous-wave assistant light; density matrix equations; gain recovery time; gain transparency point; long-lived recovery tail; picosecond gain recovery dynamics; picosecond timescale; pump pulse; semiconductor optical amplifiers; spectral hole burning; three-wavelength devices; time 1 ps; ultrafast component; Charge carrier density; Equations; High speed optical techniques; Materials; Mathematical model; Optical pumping; Semiconductor optical amplifiers;
Conference_Titel :
Photonics and Optoelectronics (SOPO), 2012 Symposium on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4577-0909-8
DOI :
10.1109/SOPO.2012.6270477
