Patent application number | Description | Published |
20080237711 | MANUFACTURING METHOD OF THIN-FILM SEMICONDUCTOR APPARATUS AND THIN-FILM SEMICONDUCTOR APPARATUS - A manufacturing method of a thin-film semiconductor apparatus and a thin-film semiconductor apparatus, in which a semiconductor thin film is spot-irradiated with an energy beam in the presence of n-type or p-type impurity to form a shallow diffusion layer in which the impurity is diffused only in a surface layer of the semiconductor thin film. | 10-02-2008 |
20080241981 | THIN FILM SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - A thin film semiconductor device is provided that includes a semiconductor thin film and a gate electrode. The semiconductor thin film has an active region turned into a polycrystalline region through irradiation with an energy beam. The gate electrode is provided to traverse the active region. In a channel part that is the active region overlapping with the gate electrode, a crystalline state is changed cyclically in a channel length direction, and areas each having a substantially same crystalline state traverse the channel part. | 10-02-2008 |
20100051830 | SEMICONDUCTOR PROCESSING APPARATUS AND SEMICONDUCTOR PROCESSING METHOD - A semiconductor processing apparatus includes: a stage on which a substrate having a semiconductor film to be processed is to be mounted; a supply section that supplies a plurality of energy beams onto the semiconductor film mounted on the stage in such a way that irradiation points of the energy beams are aligned at given intervals; and a control section that moves the plurality of energy beams and the substrate relative to each other in a direction not in parallel to alignment of the irradiation points of the plurality of energy beams supplied by the supply section, and scans the semiconductor film with the irradiation points of the plurality of energy beams in parallel to thereby control a heat treatment on the semiconductor film. | 03-04-2010 |
20100093112 | LASER ANNEALING METHOD AND LASER ANNEALING APPARATUS - An embodiment of the invention provides a laser annealing method, including the steps of radiating a laser beam to an amorphous film on a substrate while scanning the laser beam for the amorphous film, crystallizing the amorphous film, detecting a light quantity of laser beam reflected from the substrate and a scanning speed of the laser beam while the radiation and the scanning of the laser beam are carried out for the amorphous film, and controlling a radiation level and the scanning speed of the laser beam based on results of comparison of the light quantity of laser beam reflected from the substrate, and the scanning speed of the laser beam with respective preset references. | 04-15-2010 |
20110033999 | DOPING METHOD, AND METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - A doping method includes: a first step of depositing a material solution containing an antimony compound containing elements selected from the group consisting essentially of hydrogen, nitrogen, oxygen, and carbon together with antimony to a surface of a substrate; a second step of drying the material solution to form an antimony compound layer on the substrate; and a third step of performing heat treatment so that antimony in the antimony compound layer is diffused into the substrate. | 02-10-2011 |
20120064420 | POWER GENERATION SYSTEM - There is provided a power generation system capable of obtaining both of electrical energy and heat energy by utilizing light energy. The power generation system includes a gas generation section including one or more containers and producing gas by absorbing light energy, each of the containers enclosing an electrolytic solution and a plurality of semiconductor elements having photoelectric conversion function, a power generation section generating electrical energy by utilizing gas generated in the gas generation section; and a heat exchanger absorbing heat energy from the inside of the container. | 03-15-2012 |
20120306940 | DISPLAY APPARATUS - A display apparatus includes: (i) a glasses-type frame that is mounted on the head of an observer; and (ii) an image display device that is attached to the frame, wherein the image display device includes (A) an image forming device, and (B) an optical device on which light emitted from the image forming device is incident, in which the light is guided, and from which the light is emitted, a light control device that adjusts an amount of external light incident from the outside is provided in a region of the optical device from which light is emitted, and the light control device includes two opposite transparent substrates, electrodes that are provided on the substrates, and an electrophoretic dispersion liquid that is sealed between the two substrates. | 12-06-2012 |
20120320100 | DISPLAY APPARATUS - A display apparatus includes: a spectacle type frame mounted on a head portion of an observer; and an image display apparatus installed in the frame. The image display apparatus includes an image forming device, and an optical device allowing light output from the image forming device to be incident thereon, to be guided therein, and to be output therefrom. A dimmer which adjusts the amount of external light incident from the outside is disposed in an area of the optical device where the light is output. The dimmer includes a first transparent substrate and a second transparent substrate facing the first substrate, first and second electrodes which are mounted on the first and second substrates, respectively, and an electrolyte sealed between the first and second substrates and containing metal ions. The first electrode includes a conductive material of a fine line shape. The second electrode includes a transparent electrode layer. | 12-20-2012 |
20140340286 | DISPLAY DEVICE - There is provided a display device including (I) an eyeglass-shaped frame configured to be mounted on a head of an observer, and (II) an image display device attached to the frame. The image display device includes (A) an image forming device, and (B) an optical device on which light output from the image forming device is incident, in which the light is guided, and from which the light is output. A dimmer configured to adjust an amount of external light incident from outside is installed on a side opposite to a side on which the image forming device of the optical device is disposed. A light shielding member configured to shield incidence of external light on the optical device is disposed in a region of the optical device on which light output from the image forming device is incident. | 11-20-2014 |