摘要:
A visible light emitting semiconductor laser has a double-heterostructure section above the N-type GaAs substrate, which is composed of a nondoped InGaP active layer sandwiched between an N type InGaAlP cladding layer and a P type InGaAlP cladding layer. A P type InGaP thin-film layer formed on the P type cladding layer functions as an etching stopper. Formed sequentially on the etching stopper layer are a P type cladding layer and an N type GaAs current-blocking layer, which have a stripe-shaped groove section in and around their central portion. The groove section has an opening at the top and the bottom portion narrower than the opening, presenting an inverse-trapezoidal cross-sectional profile. This arrangement makes the width of the optical confinement region of the semiconductor laser narrower than that of the current injection region.
摘要:
A semiconductor laser device for radiating a laser beam from a double heterostructure section in which injected carriers having an energy source of the laser beam are confined consists of a compound semiconductor substrate with a prescribed lattice constant for loading the double heterostructure section, a lattice mismatched active layer with a first lattice constant which is 0.5% to 2.0% larger than the lattice constant of the substrate in the double heterostructure section for radiating the laser beam, a lattice mismatched cladding layer with a second lattice constant which is 0.2% to 2.0% smaller than the lattice constant of the substrate for confining the injected carriers in the active layer, and a cladding layer for confining the injected carriers in the active layer by co-operating with the lattice mismatched cladding layer.
摘要:
A semiconductor laser device comprises a compound semiconductor substrate, a first cladding layer formed on the substrate, an active layer formed on the first cladding layer, made of In.sub.1-y (Ga.sub.1-x Al.sub.x).sub.y P material (0.ltoreq.x
摘要:
According to this invention, in a semiconductor laser, an n-type InGaAlP cladding layer, an InGaP active layer, and a p-type InGaAlP cladding layer are sequentially grown on an n-type GaAs substrate to form a double hetero structure. The active layer is constituted by an ordered structure having regularity in the directions, and the p-type cladding layer is constituted by a disordered structure. Band discontinuity in conduction band between the active layer and the p-type cladding layer is increased to improve the temperature characteristics of the laser.
摘要:
This invention provides a semiconductor light-emitting device including a semiconductor substrate consisting of a compound semiconductor of elements in the third and fifth groups of the period table, a first compound semiconductor layer formed directly on at least a portion of the semiconductor substrate and consisting of a compound semiconductor containing at least In and P, and a second compound semiconductor formed directly on the first compound semiconductor layer and consisting of a compound semiconductor of elements in the second and sixth groups of the periodic table. With this arrangement, it is possible to sufficiently prevent the occurrence of defects in the interface between the semiconductor substrate and the second compound semiconductor layer consisting of the compound semiconductor of the elements in the second and sixth groups of the periodic table.
摘要:
A light-emitting semiconductor device comprising an n-type cladding layer provided on a surface of a substrate and having concentric first and second parts, a first electrode mounted on the first part of the n-type cladding layer, a p-type cladding layer provided above the surface of the substrate and surrounding the first electrode and the second part of the n-type cladding layer, and a second electrode provided on the p-type cladding layer.
摘要:
A semiconductor light-emitting element includes a semiconductor substrate of a first conductivity type, a lower cladding layer formed on the semiconductor substrate and constituted by an InGaAlP-based compound of the first conductivity type, an active layer formed on the lower cladding layer, and constituted by a material selected from the group consisting of GaAs, GaAlAs, and InGaAs, and an upper cladding layer formed on the active layer, and constituted by the InGaAlP-based compound of a second conductivity type, wherein the InGaAlP-based compound is represented by a formula In.sub.y (Ga.sub.1-x Al.sub.x).sub.y P, where x is in the range of 0.3 to 0.7 and y is in the range of 0.45 to 0.55.
摘要:
Disclosed is a semiconductor light emitting device, comprising a semiconductor substrate, a double hetero structure portion formed on the front surface of the substrate and consisting of an InGaAlP active layer and lower and upper clad layers having the active layer sandwiched therebetween, a first electrode formed in a part of the surface of the double hetero structure portion, and a second electrode formed on the back surface of the substrate. A current diffusion layer formed of GaAlAs is interposed between the double hetero structure portion and the first electrode, said current diffusion layer having a thickness of 5 to 30 microns and a carrier concentration of 5.times.10.sup.17 cm.sup.-3 to 5.times.10.sup.18 cm.sup.-3.
摘要翻译:公开了一种半导体发光器件,包括半导体衬底,形成在衬底的前表面上并由InGaAlP有源层组成的双异质结构部分和其间夹有有源层的下和上和外包层,形成的第一电极 在双异质结构部分的表面的一部分中,以及形成在基板的背面上的第二电极。 由GaAlAs形成的电流扩散层介于双异质结构部分和第一电极之间,所述电流扩散层的厚度为5至30微米,载流子浓度为5×10 17 cm -3至5×10 18 cm -3。
摘要:
A compound semiconductor device with an improved internal current blocking structure. The semiconductor device includes an n-clad layer of II-VI compound semiconductor, a p-clad layer of II-VI compound semiconductor, an active layer of II-VI compound semiconductor between the n-clad and p-clad layers, a very thin current blocking layer of n-type II-VI compound semiconductor on the p-clad layer and providing an opening, a p-contact layer of p-type II-VI compound semiconductor on the p-clad layer and the current blocking layer at the opening, and a p-side electrode on the p-contact layer.
摘要:
A wavelength converting optical device includes an optical waveguide which has a waveguide portion and a cladding portion, at least one of which is formed of a nonlinear optical material. A fundamental wave, incident on the waveguide portion from an input end face of the waveguide, is converted into an optical second harmonic wave by Cerenkov radiation and is radiated into the cladding portion. The radiated second harmonic wave is output from an output end face of the waveguide. A reflecting film is provided on the emerging end face of the waveguide. The reflecting film includes a high reflectivity with respect to the fundamental wave of a guide mode and a low reflectivity with respect to the optical second harmonic wave. A wave front converting element is arranged to oppose the reflecting film. The converting element has a diffraction grating for converting the second harmonic wave, emerging from the output end face of the waveguide, into a plane wave.