Patent ID: 8477821
Filing Date: 2013-07-02
Classification: H01S

Abstract:
1. A vertical cavity surface emitting laser comprising: a substrate; a first semiconductor multilayer reflector of a first conductive type formed on the substrate; an active region formed on the first semiconductor multilayer reflector; a second semiconductor multilayer reflector of a second conductive type formed on the active region; a current confining layer formed between the first semiconductor multilayer reflector and the second semiconductor multilayer reflector; and a metallic electrode that is formed on the second semiconductor multilayer reflector and is electrically connected to the second semiconductor multilayer reflector, wherein a conductive region with an anisotropy where a length in a longitudinal direction is different from a length in a short direction is formed in the current confining layer, an opening defining a beam aperture is formed in the metallic electrode, and a diameter of the opening in the longitudinal direction is smaller than the length of the conductive region in the longitudinal direction, both ends of the conductive region in the longitudinal direction overlap with the metallic electrode, a length of one end overlapping with the metallic electrode in a longitudinal direction is equal to the length of the other end, and a diameter of the opening in the short direction is larger than the length of the conductive region in the short direction, and a columnar structure is formed from the second semiconductor multilayer reflector to the first semiconductor multilayer reflector on the substrate; where a size of the columnar structure in a longitudinal direction being different from a size of the columnar structure in a short direction, the current confining layer is formed in the columnar structure, and the conductive region is surrounded by an oxidation region which is selectively oxidized from a side surface of the columnar structure.