Patent application number | Description | Published |
20090022196 | HIGH EFFICIENCY INTERSUBBAND SEMICONDUCTOR LASERS - An intersubband quantum cascade laser structure includes multiple coupled laser stages, wherein each stage has a multilayer structure including an electron injector, an active region with at least one quantum well, and an electron reflector. Electrons injected from the injector into the active region at a high energy level relax to a lower energy level with the emission of a photon at, for example, mid-infrared wavelengths. The reflector reflects electrons at the higher energy level at which they were injected and transmits electrons from the lower energy level after emission of a photon. Multiple layers of semiconductor are formed on each side of the multistage structure to provide conduction across the device and to provide optical confinement of the photons emitted. | 01-22-2009 |
20120201263 | HIGH-POWER QUANTUM CASCADE LASERS WITH ACTIVE-PHOTONIC-CRYSTAL STRUCTURE - Semiconductor laser array devices capable of emitting mid- to long-wavelength infrared (i.e., 4-12 μm) radiation are provided. The devices include a quantum cascade laser (QCL) structure comprising one or more active cores; an optical confinement structure; a cladding structure; and a plurality of laterally-spaced trench regions extending transversely through the optical confinement and cladding structures, and partially into the QCL structure. The trench regions, each of which comprises a lower trench layer comprising a semi-insulating material and an upper trench layer comprising a material having a refractive index that is higher than that of the semi-insulating material, define a plurality of laterally-spaced interelement regions separated by element regions in the laser array device. | 08-09-2012 |
20130107903 | QUANTUM CASCADE STRUCTURES ON METAMORPHIC BUFFER LAYER STRUCTURES | 05-02-2013 |
20140029634 | SEMICONDUCTOR MICROTUBE LASERS - Disclosed are semiconductor microtube lasers including a semiconductor multilayer heterostructure. The multilayer heterostructure includes a substantially cylindrical optically active structure capable of light emission when under the influence of an applied electromagnetic field and a substantially cylindrical distributed feedback grating structure configured to provide optical feedback for a selected wavelength of light from the optically active region and to produce lasing action from the microtube when under the influence of an applied electromagnetic field. | 01-30-2014 |
20140037258 | FABRICATION OF LOW-LOSS, LIGHT-WAVEGUIDING, ORIENTATION-PATTERNED SEMICONDUCTOR STRUCTURES - Methods for the fabrication of orientation-patterned semiconductor structures are provided. The structures are light-waveguiding structures for nonlinear frequency conversion. The structures are periodically poled semiconductor heterostructures comprising a series of material domains disposed in a periodically alternating arrangement along the optical propagation axis of the waveguide. The methods of fabricating the orientation-patterned structures utilize a series of surface planarization steps at intermediate stages of the heterostructure growth process to provide interlayer interfaces having extremely low roughnesses. | 02-06-2014 |
20140339505 | VIRTUAL SUBSTRATES BY HAVING THICK, HIGHLY RELAXED METAMORPHIC BUFFER LAYER STRUCTURES BY HYDRIDE VAPOR PHASE EPITAXY - Virtual substrates made by hydride vapor phase epitaxy are provided comprising a semiconductor growth substrate and a substantially strain-relaxed metamorphic buffer layer (MBL) structure comprising one or more layers of a semiconductor alloy on the growth substrate. The MBL structure is compositionally graded such that its lattice constant transitions from a lattice constant at the interface with the growth substrate that is substantially the same as the lattice constant of the growth substrate to a lattice constant at a surface opposite the interface that is different from the lattice constant of the growth substrate. The virtual substrates comprise relatively thick MBL structures (e.g., >20 μm) and relatively thick growth substrates (e.g., >0.5 mm) | 11-20-2014 |
20150162724 | SUBSTRATE-EMITTING TRANSVERSE MAGNETIC POLARIZED LASER EMPLOYING A METAL/SEMICONDUCTOR DISTRIBUTED FEEDBACK GRATING FOR SYMMETRIC-MODE OPERATION - Semiconductor lasers comprise a substrate; an active layer configured to generate transverse magnetic (TM) polarized light under an electrical bias; an upper cladding layer; a lower cladding layer; and a distributed feedback (DFB) grating defined by the interface of a layer of metal and a layer of semiconductor under the layer of metal, the interface periodically corrugated in the longitudinal direction of the laser with a periodicity of Λ | 06-11-2015 |