Patent ID: 8389312
Filing Date: 2013-03-05
Classification: H01S

Abstract:
1. A method of fabricating a III-nitride semiconductor laser device, the method comprising the steps of: preparing a substrate comprised of a hexagonal III-nitride semiconductor and having a semipolar primary surface; forming a substrate product having a laser structure, an anode electrode and a cathode electrode, the laser structure including the substrate and a semiconductor region formed on the semipolar primary surface; scribing a first surface of the substrate product in part in a direction of an a-axis of the hexagonal III-nitride semiconductor; and carrying out breakup of the substrate product by pressing against a second surface of the substrate product, to form another substrate product and a laser bar, the first surface being opposite to the second surface, the semiconductor region being located between the second surface and the substrate, the laser bar having first and second end faces, the first and second end faces extending from the first surface to the second surface, and the first and second end faces being made by the breakup, the first and second end faces constituting a laser cavity of the III-nitride semiconductor laser device, the anode electrode and the cathode electrode being formed on the laser structure, the semiconductor region comprising a first cladding layer comprised of a first conductivity type GaN-based semiconductor, a second cladding layer comprised of a second conductivity type GaN-based semiconductor, and an active layer provided between the first cladding layer and the second cladding layer, the first cladding layer, the second cladding layer, and the active layer being arranged along an axis normal to the semipolar primary surface, the active layer comprising a GaN-based semiconductor layer, a c-axis of the hexagonal III-nitride semiconductor of the substrate being inclined at an angle CALPHA with respect to the normal axis toward an m-axis of the hexagonal III-nitride semiconductor, the angle CALPHA being in one of a range of not less than 45 degrees and not more than 80 degrees and a range of not less than 100 degrees and not more than 135 degrees, the first and second end faces intersecting with an m-n plane defined by the normal axis and the m-axis of the hexagonal III-nitride semiconductor, the laser structure comprising a laser waveguide on the semipolar primary surface of the substrate, the laser waveguide extending in a direction of a waveguide vector, and the waveguide vector extending in a direction from one of the first and second end faces to another of the first and second end faces, the first end face making an angle β with a reference plane perpendicular to the waveguide vector in a first plane, the first plane being perpendicular to the m-n plane, and the angle β being defined on an end face of the substrate in the first end face, the first end face making an angle α with the reference plane in a second plane, the second plane being perpendicular to the m-n plane, and the angle α being defined on an end face of the active layer in the first end face, the angle α being different from the angle β, a sign of the angle α being the same as that of the angle β, and a difference between the angle α and the angle β being not less than 0.1 degrees.