Title :
Enhanced single-mode operation in multisection DFB lasers with both localized and distributed phase shift
Author :
Fessant, Thierry ; Doyelle, Xavier
Author_Institution :
Lab. RESO, Ecole Nat. d Ingenieurs de Brest, France
Abstract :
Multisection distributed feedback lasers with both localized (/spl lambda//8 phase shift) and distributed phase shift (produced by a phase-adjustment region) are investigated theoretically. It is shown that such a mixed phase shift, combined with a stronger coupling coefficient in the center of the cavity, may enlarge the threshold gain margin as well as the output optical power, enhance the intra cavity field flatness and produce an effective index profile leading to a low sensitivity to spatial-hole burning (SHB) (with respect to conventional /spl lambda//4 phase-shifted DFB lasers). As a consequence, the side-mode suppression ratio (SMSR) is improved and single-mode operation up to high bias currents is maintained.
Keywords :
coupled mode analysis; distributed feedback lasers; laser beams; laser cavity resonators; laser feedback; laser modes; laser stability; optical hole burning; semiconductor device models; semiconductor lasers; coupling coefficient; distributed phase shift; effective index profile; enhanced single-mode operation; high bias currents; intra cavity field flatness; localized phase shift; mixed phase shift; multisection DFB lasers; multisection distributed feedback lasers; output optical power; phase-adjustment region; phase-shifted DFB lasers; side-mode suppression ratio; single-mode operation; spatial-hole burning; threshold gain margin; Distributed feedback devices; Laser feedback; Laser modes; Laser stability; Laser theory; Optical coupling; Optical feedback; Optical sensors; Optical waveguides; Semiconductor lasers;
Journal_Title :
Photonics Technology Letters, IEEE
