Patent ID: 9660138
Date: 2017-05-23
CPC Classifications: H01L

Claim:
1. A method for manufacturing a light emitting device, comprising the steps of: a) forming a first light confinement layer having a plurality of openings on or above one main surface of an oriented polycrystalline substrate, said oriented polycrystalline substrate including a plurality of oriented crystal grains so that said one main surface has a first area in which there are no crystal defects and a second area in which there is a crystal defect; b) stacking an n-type layer, an active layer, and a p-type layer in the stated order in each of said plurality of openings on or above said one main surface of said oriented polycrystalline substrate using said first light confinement layer as a mask to thereby form a plurality of columnar structures, said plurality of columnar structures including a plurality of first columnar structures formed in openings on or above said first area and a second columnar structure formed in an opening on or above said second area and having a shorter longitudinal size than said plurality of first columnar structures; c) forming a second light confinement layer on said first light confinement layer so that said second light confinement layer covers said plurality of first columnar structures and said second columnar structure, said second light confinement layer being formed of the same material as said first light confinement layer; d) forming a transparent conductive film on said second light confinement layer so that said transparent conductive film is electrically connected only to said plurality of first columnar structures and is not electrically connected to said second columnar structure; e) forming a pad electrode on said transparent conductive film, said pad electrode serving as an anode electrode; and f) forming a cathode electrode electrically connected to ends of said plurality of first columnar structures closer to said oriented polycrystalline substrate, wherein in said step a), said plurality of openings are determined as positions of lattice points of a planar lattice having a pitch between two adjacent columnar light emitting parts regardless of whether said first or second area lies under said plurality of openings, and in said steps a) and c), said first light confinement layer and said second light confinement layer are formed of a material having a lower refractive index than a material for said plurality of first columnar structures.