In this thesis,we study the characteristics of the 1.55μm two-section self-feedfack laser with injection-locking technique.We fabricate an air gap with a specific width and depth in the middle of the two single-mode laser side by side with the focus ion beam system. The laser device has an high-reflection facet and an anti-reflection one on the other side. From the wave intensity simulation, we know that the injection ratio from the master laser (ML) to the slave laser (SL) will differ at different depths. Besides, the current distribution in the two-section cavity will also differ because of the different depths. Based on the optical injection-locking theory, we present the device structure about 1.55µm two-section edge emitting laser、the relative intensity noise (RIN) measurement of the device with light injection and without light injection, and the simulation results of RIN spectrum .We can observe that the resonance frequency increase largely under a external injection light condition. Theoretically if we increase the injection ratio, the resonance frequency can be up to 10 GHz at least, and relative intensity noise can reduce effectively. In this thesis fixing some gap depths, we change the injection ratio from ML, and we can enhance the RF frequency up to 20 GHz at least under injection-locking condition. With the technique, we can increase the laser modulation bandwidth.