Patent application number | Description | Published |
20080214021 | METHOD OF CRYSTALLIZING SEMICONDUCTOR FILM AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - It is an object of the present invention to align the plane orientations of crystal grains of a semiconductor film crystallized by irradiation with a linear laser beam with a width of less than or equal to 5 μm. By performing irradiation with the linear laser beam condensed by an aspheric cylindrical lens or a gradient index lens to completely melt the semiconductor film and scanning the linear laser beam, the completely melted semiconductor film is made to grow laterally. Because the linear beam is very narrow, the width of the semiconductor which is in a liquid state is also narrow, so the occurrence of turbulent flow in the liquid semiconductor is suppressed. Therefore, growth directions of adjacent crystal grains do not become disordered due to turbulent flow and are unformalized, and thus the plane orientations of the laterally grown crystal grains can be aligned. | 09-04-2008 |
20080223838 | Laser treatment apparatus, laser treatment method, and manufacturing method of semiconductor device - The invention relates to a laser treatment apparatus including a laser oscillator, an interlock provided in the laser oscillator, a movable table which moves with a certain movement period, a timer, an interlock provided in the timer, a sensor which can detect movement of the movable table, and a computer, in which the timer starts measuring time when the sensor senses passage of the movable table, and when the movable table does not pass the sensor even after the movement period, conduction between contacts of the interlock provided in the timer is blocked to operate the interlock in the laser oscillator, thereby stopping laser output. The invention also relates to a laser treatment method using the laser treatment apparatus. | 09-18-2008 |
20080233719 | Method for Manufacturing Crystalline Semiconductor Film and Method for Manufacturing Thin Film Transistor - The present invention relates to a method for manufacturing a polycrystalline semiconductor film that can be used for a semiconductor device. In the method, an amorphous semiconductor film is irradiated with a femtosecond laser to be crystallized. By laser irradiation using a femtosecond laser, when an amorphous semiconductor film over which a cap film is formed is crystallized with a laser, it becomes possible to perform crystallization of the semiconductor film and removal of the cap film at the same time. Therefore, a step of removing the cap film in a later step can be omitted. | 09-25-2008 |
20090181518 | MANUFACTURING METHOD AND MANUFACTURING APPARATUS OF SEMICONDUCTOR SUBSTRATE - It is an object to provide a homogeneous semiconductor substrate in which defective bonding is reduced. Such a semiconductor substrate can be formed by the steps of: disposing a first substrate in a substrate bonding chamber which includes a substrate supporting base where a plurality of openings is provided, substrate supporting mechanisms provided in the plurality of openings, and raising and lowering mechanisms which raise and lower the substrate supporting mechanisms; disposing a second substrate over the first substrate so as not to be in contact with the first substrate; and bonding the first substrate to the second substrate by using the raising and lowering mechanisms to raise the substrate supporting mechanisms. | 07-16-2009 |
20110062855 | Lighting Device - One object is to provide a lighting device having a large irradiation range at low cost. One object is to provide a lighting device with improved light extraction efficiency at low cost. The lighting device includes a light-transmitting base, a first light-transmitting electrode formed over almost the whole area of a surface of the light-transmitting base, an EL layer over the first light-transmitting electrode, and a second electrode over the EL layer. The light-transmitting base has a cylindrical shape, a conical shape, a prismatic shape, or a pyramidal shape whose bottom surface is the surface of the light-transmitting base. | 03-17-2011 |
20110214610 | MANUFACTURING METHOD AND MANUFACTURING APPARATUS OF SEMICONDUCTOR SUBSTRATE - It is an object to provide a homogeneous semiconductor substrate in which defective bonding is reduced. Such a semiconductor substrate can be formed by the steps of: disposing a first substrate in a substrate bonding chamber which includes a substrate supporting base where a plurality of openings is provided, substrate supporting mechanisms provided in the plurality of openings, and raising and lowering mechanisms which raise and lower the substrate supporting mechanisms; disposing a second substrate over the first substrate so as not to be in contact with the first substrate; and bonding the first substrate to the second substrate by using the raising and lowering mechanisms to raise the substrate supporting mechanisms. | 09-08-2011 |
20110217815 | MANUFACTURING METHOD OF OXIDE SEMICONDUCTOR FILM AND MANUFACTURING METHOD OF TRANSISTOR - An object is to provide a manufacturing method of an oxide semiconductor film with high crystallinity. Another object is to provide a manufacturing method of a transistor with high field effect mobility. In a manufacturing method of an oxide semiconductor film, an oxide semiconductor film is formed over a substrate in an atmosphere in which oxygen is purposely not contained, and then the oxide semiconductor film is crystallized by a heat treatment in an atmosphere containing oxygen. | 09-08-2011 |
20110220011 | MANUFACTURING METHOD OF GALLIUM OXIDE SINGLE CRYSTAL - A method of growing a single crystal of gallium oxide at a lower temperature than the melting point (1900° C.) of gallium oxide is provided. A compound film (hereinafter referred to as “gallium oxide compound film”) containing Ga atoms, O atoms, and atoms or molecules that easily sublimate, is heated to sublimate the atoms or molecules that easily sublimate from inside the gallium oxide compound film, thereby growing a single crystal of gallium oxide with a heat energy that is lower than a binding energy of gallium oxide. | 09-15-2011 |
20120097942 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object of an embodiment of the present invention to reduce leakage current between a source and a drain in a transistor including an oxide semiconductor. As a first gate film in contact with a gate insulating film, a compound conductor which includes indium and nitrogen and whose band gap is less than 2.8 eV is used. Since this compound conductor has a work function of greater than or equal to 5 eV, preferably greater than or equal to 5.5 eV, the electron concentration in an oxide semiconductor film can be maintained extremely low. As a result, the leakage current between the source and the drain is reduced. | 04-26-2012 |
20120112184 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device having a novel structure or a method for manufacturing the semiconductor device is provided. For example, the reliability of a transistor which is driven at high voltage or large current is improved. For improvement of the reliability of the transistor, a buffer layer is provided between a drain electrode layer (or a source electrode layer) and an oxide semiconductor layer such that the end portion of the buffer layer is beyond the side surface of the drain electrode layer (or the source electrode layer) when seen in a cross section, whereby the buffer layer can relieve the concentration of electric field. The buffer layer is a single layer or a stacked layer including a plurality of layers, and includes, for example, an In—Ga—Zn—O film containing nitrogen, an In—Sn—O film containing nitrogen, an In—Sn—O film containing SiOx, or the like. | 05-10-2012 |
20120138922 | OXIDE SEMICONDUCTOR FILM AND SEMICONDUCTOR DEVICE - An oxide semiconductor film which has more stable electric conductivity is provided. Further, a semiconductor device which has stable electric characteristics and high reliability is provided by using the oxide semiconductor film. An oxide semiconductor film includes a crystalline region, and the crystalline region includes a crystal in which an a-b plane is substantially parallel with a surface of the film and a c-axis is substantially perpendicular to the surface of the film; the oxide semiconductor film has stable electric conductivity and is more electrically stable with respect to irradiation with visible light, ultraviolet light, and the like. By using such an oxide semiconductor film for a transistor, a highly reliable semiconductor device having stable electric characteristics can be provided. | 06-07-2012 |
20120241734 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - An object is to provide a highly reliable semiconductor device having stable electric characteristics by using an oxide semiconductor film having stable electric characteristics. Another object is to provide a semiconductor device having higher mobility by using an oxide semiconductor film having high crystallinity. A crystalline oxide semiconductor film is formed over and in contact with an insulating film whose surface roughness is reduced, whereby the oxide semiconductor film can have stable electric characteristics. Accordingly, the highly reliable semiconductor device having stable electric characteristics can be provided. Further, the semiconductor device having higher mobility can be provided. | 09-27-2012 |
20130020932 | Lighting Device - One object is to provide a lighting device having a large irradiation range at low cost. One object is to provide a lighting device with improved light extraction efficiency at low cost. The lighting device includes a light-transmitting base, a first light-transmitting electrode formed over almost the whole area of a surface of the light-transmitting base, an EL layer over the first light-transmitting electrode, and a second electrode over the EL layer. The light-transmitting base has a cylindrical shape, a conical shape, a prismatic shape, or a pyramidal shape whose bottom surface is the surface of the light-transmitting base. | 01-24-2013 |
20130214273 | OXIDE SEMICONDUCTOR FILM AND SEMICONDUCTOR DEVICE - An oxide semiconductor film which has more stable electric conductivity is provided. Further, a semiconductor device which has stable electric characteristics and high reliability is provided by using the oxide semiconductor film. An oxide semiconductor film includes a crystalline region, and the crystalline region includes a crystal in which an a-b plane is substantially parallel with a surface of the film and a c-axis is substantially perpendicular to the surface of the film; the oxide semiconductor film has stable electric conductivity and is more electrically stable with respect to irradiation with visible light, ultraviolet light, and the like. By using such an oxide semiconductor film for a transistor, a highly reliable semiconductor device having stable electric characteristics can be provided. | 08-22-2013 |
20140048801 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device having a novel structure or a method for manufacturing the semiconductor device is provided. For example, the reliability of a transistor which is driven at high voltage or large current is improved. For improvement of the reliability of the transistor, a buffer layer is provided between a drain electrode layer (or a source electrode layer) and an oxide semiconductor layer such that the end portion of the buffer layer is beyond the side surface of the drain electrode layer (or the source electrode layer) when seen in a cross section, whereby the buffer layer can relieve the concentration of electric field. The buffer layer is a single layer or a stacked layer including a plurality of layers, and includes, for example, an In—Ga—Zn—O film containing nitrogen, an In—Sn—O film containing nitrogen, an In—Sn—O film containing SiOx, or the like. | 02-20-2014 |
20140183532 | OXIDE SEMICONDUCTOR FILM AND SEMICONDUCTOR DEVICE - An oxide semiconductor film which has more stable electric conductivity is provided. Further, a semiconductor device which has stable electric characteristics and high reliability is provided by using the oxide semiconductor film. An oxide semiconductor film includes a crystalline region, and the crystalline region includes a crystal in which an a-b plane is substantially parallel with a surface of the film and a c-axis is substantially perpendicular to the surface of the film; the oxide semiconductor film has stable electric conductivity and is more electrically stable with respect to irradiation with visible light, ultraviolet light, and the like. By using such an oxide semiconductor film for a transistor, a highly reliable semiconductor device having stable electric characteristics can be provided. | 07-03-2014 |