Patent application number | Description | Published |
20090304034 | Electrically Pumped Broadly Tunable Mid-Infrared Lasers based on Quantum Confined Transition Metal Doped Semiconductors - Electrically pumped mid-IR semiconductor lasers that are operable at room temperature and possess a range of tunability up to 1100 nm, which constitutes a revolutionary (1-2 orders of magnitude) improvement in the range of tunability over existing semiconductor laser technology utilizing Doped quantum confined host material (DQCH) with characteristic spatial dimension of the confinement tuned to enable the overlap of the discrete levels of the host and impurity ions and efficient energy transfer from the separated host carriers to the impurity, wherein: said DQCH material has the formula TM:MeZ and/or MeX | 12-10-2009 |
20120224599 | MID-IR MICROCHIP LASER: ZNS:CR2+ LASER WITH SATURABLE ABSORBER MATERIAL - A method of fabrication of laser gain material and utilization of such media includes the steps of introducing a transitional metal, preferably Cr | 09-06-2012 |
20130261444 | PHOTOTHERMAL NANOSTRUCTURES IN TUMOR THERAPY - Methods, structures, devices and systems are disclosed for implementing a photothermal therapy using nanostructures. In one aspect, a device to produce a photothermal effect includes a particle having a molecular layer functionalized onto the external surface of the particle and structured to attach to one or more targeting molecules capable of binding to a receptor site of a cell, in which the particle is configured to absorb light energy at a particular wavelength to produce a plasmon resonance effect that causes the particle to emit heat energy. In some implementations, the device is deployed in an organism having a tumor that includes a plurality of the cell and binds to the receptor site of the tumor by the targeting molecules, in which the light energy is emitted at a region of the organism that contains the tumor and the heat energy causes cellular death of the tumor cell. | 10-03-2013 |
20140321494 | MIDDLE-INFRARED VOLUMETRIC BRAGG GRATING BASED ON ALKALI HALIDE OR ALKILI-EARTH FLOURIDE COLOR CENTER CRYSTALS - Volumetric Bragg grating devices that operate in middle-infrared region of the spectrum and methods for producing such devices are described. Such a Volumetric Bragg grating device can be produced by forming a plurality of color centers within an alkali-halide or an alkali-earth fluoride crystal and selectively removing a subset of the plurality of color centers to produce variations in refractive index of the alkali-halide or alkali-earth fluoride crystal in the middle-infrared spectral region and to thereby produce a volumetric Bragg grating that operates in middle-infrared spectral range. | 10-30-2014 |
20140348200 | MIDDLE-INFRARED VOLUMETRIC BRAGG GRATING BASED ON ALKALI HALIDE COLOR CENTER CRYSTALS - Volumetric Bragg grating devices that operate in middle-infrared region of the spectrum and methods for producing such devices are described. Such a Volumetric Bragg grating device can be produced by forming a plurality of color centers within an alkali-halide crystal and selectively removing a subset of the plurality of color centers to produce variations in refractive index of the alkali-halide crystal in the middle-infrared spectral region and to thereby produce a volumetric Bragg grating that operates in middle-infrared spectral range. | 11-27-2014 |
20140362879 | SATURABLE ABSORBERS FOR Q-SWITCHING OF MIDDLE INFRARED LASER CAVATIES - This disclosure demonstrates successfully using single, polycrystalline, hot pressed ceramic, and thin film Fe doped binary chalcogenides (such as ZnSe and ZnS) as saturable absorbing passive Q-switches. The method of producing polycrystalline ZnSe(S) yields fairly uniform distribution of dopant, large coefficients of absorption (5-50 cm | 12-11-2014 |
Patent application number | Description | Published |
20110059116 | LASER-BASED VACCINE ADJUVANTS - The invention is directed to a vaccine for generating an enhanced immune response in a subject previously exposed to non-destructive laser radiation, as compared to an immune response in a subject previously non-exposed to non-destructive laser radiation. The invention is also directed to use of a composition comprising a vaccine for use in combination with non-destructive laser radiation for generating an enhanced immune response from a subject, as compared to an immune response without the use of laser radiation. The laser exposure acts as an adjuvant for the vaccine, increasing the efficacy and/or potency of the vaccine. | 03-10-2011 |
20130078265 | LASER-BASED VACCINE ADJUVANTS - The invention is directed to a vaccine for generating an enhanced immune response in a subject previously exposed to non-destructive laser radiation, as compared to an immune response in a subject previously non-exposed to non-destructive laser radiation. The invention is also directed to use of a composition comprising a vaccine for use in combination with non-destructive laser radiation for generating an enhanced immune response from a subject, as compared to an immune response without the use of laser radiation. The laser exposure acts as an adjuvant for the vaccine, increasing the efficacy and/or potency of the vaccine. | 03-28-2013 |
20140335110 | LASER-BASED VACCINE ADJUVANTS - The invention is directed to a vaccine for generating an enhanced immune response in a subject previously exposed to non-destructive laser radiation, as compared to an immune response in a subject previously non-exposed to non-destructive laser radiation. The invention is also directed to use of a composition comprising a vaccine for use in combination with non-destructive laser radiation for generating an enhanced immune response from a subject, as compared to an immune response without the use of laser radiation. The laser exposure acts as an adjuvant for the vaccine, increasing the efficacy and/or potency of the vaccine. | 11-13-2014 |
Patent application number | Description | Published |
20110200167 | RADIATION MODULATION IN A SECURITY EXAMINATION APPARATUS - Radiation flux can be adjusted “on the fly” as an object ( | 08-18-2011 |
20110206180 | METHOD OF AND APPARATUS FOR MEASURING CENTER DETECTOR INDEX ON CT SCANNER WITH LIMITED FIELD OF VIEW ACCESS - A position of a center detector of a radiation scanner can be determined without shutting down the scanner and/or manually positioning a phantom in the scanning field of the scanner. A phantom, comprising a target, is scanned to create an axial image of the phantom. The target is masked in the axial image, producing a masked axial image of the phantom. The masked axial image is reprojected in projection space, and the axial reprojection is compared to an axial projection or a rebinned axial projection of the phantom that was used to create the axial image. A target axial projection of data related to the masked target, created from the comparison of the axial projection or the rebinned axial projection and the axial reprojection, is used to determine the position of the center detector. | 08-25-2011 |
20130216100 | OBJECT IDENTIFICATION USING SPARSE SPECTRAL COMPONENTS - One or more systems and/or techniques are provided to identify and/or classify objects of interest (e.g., potential granular objects) from a radiographic examination of the object. Image data of the object is transformed using a spectral transformation, such as a Fourier transformation, to generate image data in a spectral domain. Using the image data in the spectral domain, one or more one-dimensional spectral signatures can be generated and features of the signatures can be extracted and compared to features of one or more known objects. If one or more features of the signatures correspond (e.g., within a predetermined tolerance) to the features of a known object to which the feature(s) is compared, the object of interest may be identified and/or classified based upon the correspondence. | 08-22-2013 |