مرکز منطقه ای اطلاع رساني علوم و فناوري - Lateral analysis of quasi-index-guided injection lasers: Transition from gain to index guiding

Abstract :

In double-heterostructure stripe-geometry semiconductor lasers an effective lateral index step $\\Delta n_{L}$ over the stripe region can be induced through evanescent-field coupling. Such a quasi-index-guided device exhibits a transition from the gain-guided to the index-guided regime when $\\Delta n_{L}$ is progressively increased. Using parameters appropriate to a 1.3-μm InGaAsP laser, the transition is shown to occur around $\\Delta n_{L} \\sim 5 \\times 10^{-3}$ . The exact value of $\\Delta n_{L}$ depends on the extent of carrier-induced antiguiding. In the transition region the threshold current decreases rapidly, the lateral mode contracts, and the far field changes from a twin-lobe to a single-lobe pattern. Our analysis suggests that a quasi-index-guided device operates most efficiently for values of $\\Delta n_{L}$ at which the index-guided regime is just approached. With a further increase of $\\Delta n_{L}$ , the mismatch between the gain and mode profiles leads to lower differential quantum efficiencies. Among other structures, the analysis is applicable to a ridge waveguide laser. For a 1.3-μm laser the optimum $\\Delta n_{L}$ can be obtained using 0.2-μm-thick cladding layers for a 0.2-μm thick active layer.