Center for High Frequency Microelectronics, Electrical Engineering and Computer Science Department, 2435 EECS Building, The University of Michigan, Ann Arbor, Michigan 48109-2122, USA
Abstract:
InGaAsP has been grown by CBE at compositions of 1.1, 1.2 and 1.4 μm for the development of MQW-SCH lasers. The observed incorporation coefficients for TMI and TEG show strong temperature sensitivity while the phosphorus and arsenic incorporation behavior is constant over the substrate temperature range explored, 530 to 580°C setpoint. For higher substrate temperatures the growth rate increases with the largest growth rates occurring for the 1.4 μm quaternary. Low temperature photoluminescence indicates the possibility of compositional grading or clustering for the 1.1 μm material and also for the 1.2 μm material grown at the lowest substrate temperature. The final laser structure was grown with the InP cladding regions grown at 580°C with the inner cladding and active regions grown at 555°C. Using this approach we have successfully grown MQW-SCH lasers with the composition of the active InxGa1−xAs ranging from x=0.33 to x=0.73. Threshold current densities as low as 689 A/cm2 have been measured for an 800 μm×90 μm broad area device with x=0.68.