Method of fabricating a light emitting device and light emitting device

Abstract

In the light emitting device having, a light emitting layer portion and a current spreading layer, respectively composed of a Group III-V compound semiconductor, formed on a single crystal substrate, the light emitting layer portion is formed on the single crystal substrate by the metal organic vapor-phase epitaxy process, and on such light emitting layer portion the current spreading layer is formed by the hydride vapor-phase epitaxy process. A high-concentration doped layer is also formed in a surficial area including the main surface on the electrode forming side of the current spreading layer, so as to have a carrier concentration of p-type dopant higher than that in the residual portion of the current spreading layer. A current blocking layer which comprises a Group III-V compound semiconductor having a conductivity type different from that of the current spreading layer is formed in the midway in the thickness-wise direction of the current spreading layer as being buried therein At least a portion of the current spreading layer covering the current blocking layer on the electrode side is formed by the hydride vapor-phase epitaxy process (the second vapor-phase growth step). The current spreading layer is composed of GaAs P (0.5≦a≦0.9). An off-angled substrate is available as the single crystal substrate.