A 976nm fiber-coupled diode laser module based on stepped prisms and polarization beam combiner is proposed in this paper to solve the mismatch of beam quality in both directions of diode lasers. The beam size was compressed on the fast and slow axis without using a prism stack for beam shaping. Based on that, a laser stack of eight mini bars was coupled into a fiber with a core diameter of 200 μm and a numerical aperture of 0.22. The simulation results show that the output power of the fiber-coupled module is 597 W, the brightness is almost 12.5 MW/(cm2 ·sr), and the optical-to-optical conversion efficiency is 93.28%. The fiber-coupled module proposed in this paper can not only achieve high power outputs but is also widely used in the fields of material processing and industrial.
We design a 976nm fiber coupling module with 20 single-emitter diode lasers by ray tracing. Each emitter has an output power of 10 W. This is achieved by beam collimation of the fast and slow axis, fast-axis beam stacking using overlapping mirrors, and polarization beam combining. Through polarization multiplexing, the output power can be nearly doubled with no loss of beam quality. The core diameter of output fiber is 105μm with a numerical aperture (NA) of 0.22. Finally, the simulated result indicates that the module can have an output power over 190W. At the same time, the brightness of 14.43 MW∙cm-2∙str-1 and the coupling efficiency of 95% can be achieved.
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