Abstract
A 1.3-/spl mu/m GaInAsP laser diode (LD) is integrated with a monitoring photodiode (M-PD) through a semiconductor/air Bragg reflector (SABAR). Instead of conventional cleavage, the SABAR can provide not only Fabry-Perot resonance with high reflectivity, but also possibility of integration of laser with other functional devices. The design, fabrication, and some characteristics including threshold current, monitoring photocurrent, SABAR reflectivity as a function of the number of semiconductor/air pairs N are reported. The threshold current of ridge waveguide laser with SABAR (cavity length L=160 /spl mu/m, ridge width W=7 /spl mu/m, SABAR pairs N=3) is 20 mA. The threshold current is reduced by improving butt-coupled interface between active and passive waveguides employed in this laser and is expected 2 mA//spl mu/m. The monitoring photocurrent responds linearly with output power from the laser and 0.024 mA at laser output power of 5 mW. From the threshold characteristics, SABAR reflectivity is determined to >80%. The increase of photocurrent can be achieved by optimizing the number of SABAR pairs to N=1. We have obtained threshold current of 22 mA in the followed laser structure (L=270 /spl mu/m, W=7 /spl mu/m, N=1), and detector photocurrent of 1.13 mA (@5 mW). The experimental SABAR reflectivity is /spl sim/50%, which is estimated by threshold characteristics and efficiency of light output power. The laser has a mode field converter section, resulting in narrow beam divergence 11/spl deg/ along vertical axis. This integrated laser is very promising candidate for coming optical module in low-power consumption and low-cost access network systems.
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More From: IEEE Journal of Selected Topics in Quantum Electronics
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