Title :
High-gain, high-power 1550-nm polarization independent MQW optical amplifier
Author :
Tiemeijer, L.F. ; Thijs, P.J.A. ; Van Dongen, T. ; Binsma, J.J.M. ; Jansen, E.J. ; Walczyk, S. ; van den Hoven, G.N. ; Pennings, E.C.M.
Author_Institution :
Philips Optoelectron. Centre, Eindhoven, Netherlands
Abstract :
A practical 1550-nm polarization independent semiconductor optical amplifier configuration employing compressively strained quantum wells and a few commercially available optical components is reported. Crosstalk from counter propagating light, which may easily occur in such a configuration, has been sufficiently suppressed for practical use. For the entire configuration a net fiber-to-fiber gain of 17 dB, a 3-dB saturation output power of 13 dBm and a noise figure of 9 dB have been demonstrated. The polarization dependence was only 0.7 dB. The polarization independent 1550-nm semiconductor optical amplifier reported here is attractive when power consumption and compactness are of major concern and especially for applications involving nonlinear signal processing and switching.
Keywords :
laser transitions; light polarisation; optical crosstalk; optical information processing; optical saturation; quantum well lasers; semiconductor switches; 1550 nm; commercially available optical components; compressively strained quantum wells; counter propagating light crosstalk; dB saturation output power; fiber-to-fiber gain; high-gain; high-power; nm polarization independent MQW optical amplifier; noise figure; nonlinear signal processing; nonlinear signal switching; polarization dependence; power consumption; semiconductor optical amplifier; Fiber nonlinear optics; High power amplifiers; Nonlinear optics; Optical amplifiers; Optical fiber polarization; Optical polarization; Optical signal processing; Quantum well devices; Semiconductor optical amplifiers; Stimulated emission;
Journal_Title :
Photonics Technology Letters, IEEE
