A semiconductor laser is formed to include a current blocking layer that is positioned below the active region of the device and used to minimize current spreading beyond the defined dimensions of an output beam's optical mode. When used in conjunction with other current-confining structures typically disposed above the active region (e.g., ridge waveguide, electrical isolation, oxide aperture), the inclusion of the lower current blocking layer improves the efficiency of the device. The current blocking layer may be used in edge-emitting devices or vertical cavity surface-emitting devices, and also functions to improve mode shaping and reduction of facet deterioration by directing current flow away from the facets.

A semiconductor optical integrated device includes: a substrate; at least a lower cladding layer, a waveguide core layer, and an upper cladding layer sequentially layered on the substrate, a buried hetero structure waveguide portions each having a waveguide structure in which a semiconductor cladding material is embedded near each of both sides of the waveguide core layer; and a ridge waveguide portion having a waveguide structure in which a semiconductor layer including at least the upper cladding layer protrudes in a mesa shape. Further, a thickness of the upper cladding layer in each of the buried hetero structure waveguide portions is greater than a thickness of the upper cladding layer in the ridge waveguide portion.

The present invention relates to a diode laser with a current block and, in particular, to a diode laser with a modified p-n-p or n-p-n structure as a current block for reducing the tunneling probability. A diode laser according to the invention comprises an active layer and a layered current block formed outside the active layer, wherein the current block is made of a material doped in opposition to its surroundings for a spatially selective current injection of the active layer between an n-substrate and a p-contact; wherein the current block is separated from adjacent layers via an intrinsic outer layer.