Title :
Accuracy on emitted wavelengths in DFB laser arrays resulting from the longitudinal mode selection mechanism
Author :
Talneau, A. ; Slempkes, S. ; Ougazzaden, A.
Author_Institution :
France Telecom, CNET, Marcoussis, France
Abstract :
We compare the merit of various longitudinal mode selection mechanism in distributed feedback laser for application as arrayed sources in the wavelength-division multiplexing context. Phase-shifted and complex-coupled laser arrays have been fabricated and characterized. We propose that the dispersion on the emitted wavelengths is strongly correlated to the field localization along the cavity. By comparison of the dispersion values measured within the laser arrays, we can conclude that the complex grating with gain is the best suitable mechanism for high wavelength accuracy and stability, due to the strong and distributed localization of the field in the gain sections of each period of the grating.
Keywords :
diffraction gratings; distributed feedback lasers; laser cavity resonators; laser modes; semiconductor laser arrays; DFB laser arrays; arrayed sources; complex-coupled laser arrays; diode lasers; dispersion values; distributed feedback laser; emitted wavelength accuracy; emitted wavelengths; gain sections; grating period; laser cavity resonators; longitudinal mode selection mechanism; phase-shifted laser arrays; wavelength-division multiplexing; Dispersion; Distributed feedback devices; Gratings; Laser applications; Laser feedback; Laser modes; Laser stability; Optical arrays; Phased arrays; Wavelength division multiplexing;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.826888
