Abstract: An object of the present invention is to provide a phase shifter for laser annealing which is capable of effectively preventing the sticking of particles. A first layer and a third layer are made of quartz glass, and a two-dimensional pattern of fine grooves is formed in the surfaces of the layers. The first layer and the third layer are arranged so that a second layer is sandwiched between the layers in a state in which the surfaces provided with the grooves face each other. A peripheral edge portion of the first layer is laminated on that of the third layer by a spacer. The second layer is made of an inactive gas introduced between the first layer and the third layer.

Abstract: An optical device comprises a first cylindrical lens array in which a plurality of first lens segments each having a first radius of curvature and a first width so as to divide laser light into a plurality of light components are arranged, and a plurality of second lens segments each having a second radius of curvature and a second width, and provided in at least one position of the first cylindrical lens array so as to be arranged between adjacent first lens segments.

Abstract: A light irradiation apparatus includes a light modulation element which modulates a phase of an incident light beam to obtain a V-shaped light intensity distribution having a bottom portion of a minimum light intensity, and an image formation optical system which applies the modulated light beam from the light modulation element to an irradiation target surface in such a manner that the V-shaped light intensity distribution is provided on the irradiation target surface. The light modulation element has such a complex amplitude transmittance distribution that a secondary derivative of a phase value of a complex amplitude distribution becomes substantially zero at the bottom portion of the V-shaped light intensity distribution in an image space of the image formation optical system.

Abstract: The present invention comprises a light modulation optical system having a first element which forms a desired light intensity gradient distribution to an incident light beam and a second element which forms a desired light intensity minimum distribution with an inverse peak shape to the same, and an image formation optical system which is provided between the light modulation optical system and a substrate having a polycrystal semiconductor film or an amorphous semiconductor film, wherein the incident light beam to which the light intensity gradient distribution and the light intensity minimum distribution are formed is applied to the polycrystal semiconductor film or the amorphous semiconductor film through the image formation optical system, thereby crystallizing a non-crystal semiconductor film. The pattern of the first element is opposed to the pattern of the second element.

Abstract: An aberration measurement apparatus measures the aberration of an imaging optical system. The apparatus includes an illumination system, a separation member, and a measurement unit. The illumination system supplies the imaging optical system with measurement light used to measure an aberration of the imaging optical system and background light different from the measurement light. The separation member separates the measurement light and the background light which have passed through the imaging optical system. The measurement unit measures the aberration of the imaging optical system on the basis of the measurement light separated by the separation member.

Abstract: An integrated circuit, which is configured such that a MOS transistor and a bipolar transistor are integrated at the same time, is formed on an insulating substrate which includes a display device. An electronic device or a display includes a plurality of semiconductor devices which are formed by using a semiconductor thin film and are formed in the semiconductor thin film that is provided on an insulating substrate and is crystallized in a predetermined direction. The plurality of semiconductor devices include a MOS transistor and at least either one of a lateral bipolar thin-film transistor and a MOS-bipolar hybrid thin film transistor.

Abstract: A crystallization method which generates a crystallized semiconductor film by irradiating at least one of a polycrystal semiconductor film and an amorphous semiconductor film with light beams having a light intensity distribution with an inverse peak pattern that a light intensity is increased toward the periphery from an inverse peak at which the light intensity is minimum, wherein a light intensity value ? (standardized value) in the inverse peak when a maximum value of the light intensity in the light intensity distribution with the inverse peak pattern is standardized as 1 is set to 0.2?value ??0.8.

Abstract: The present invention provides a method for making a fast dissolving tablet. The method includes the steps of (a) preparing a first solution containing a hydrophilic polymer and a starch; (b) preparing a second solution containing a pharmaceutically active ingredient and a surfactant; (c) blending the first and the second solution together to form a plurality of granule powders by granulation; (d) mixing the granule powders with excipients; and (e) applying a compression-molding process to form the fast dissolving tablet.

Abstract: A light application apparatus includes an optical modulation element provided with a plurality of phase steps, a light beam which is entered into the optical modulation element being phase-modulated by the phase steps and exits from the optical modulation element as a light beam having a first light intensity distribution. An optical system is arranged between the optical modulation element and an predetermined plane. The optical system divides the phase-modulated light beam into at least two light fluxes having second and third light intensity distributions and different optical characteristics from each other, and projects a light beam including the divided two light fluxes, the light intensity distributions of the projected light fluxes being combined with each other, so that the projected light beam has a fourth light intensity distribution with an inverse peak shape on the predetermined plane and enters the predetermined plane.

Abstract: An extract prepared from the root barks of Morus australis Poir.

Abstract: An antitussive composition is provided. A pharmaceutical composition for relieving, preventing and/or treating a cough includes a sufficient amount of the Morus australis Poir extract as an active component. The effective Morus australis Poir extract is prepared by extracting the root-bark of the Morus australis Poir with water, ethanol, acetone, ethyl acetate, or a combination thereof. The crude extract can be further fractioned by ultrafiltration or reverse phase column.

Abstract: A method of crystallizing a semiconductor film including splitting a pulse laser beam oscillated from a laser oscillator, and synthesizing the split pulse laser beams after the split pulse laser beams have propagated through optical paths different in optical path length, modulating the synthesized pulse laser beam into a pulse laser beam by a phase modulating element, and irradiating a non-single-crystal film formed on a substrate with the laser beam to crystallize the non-single-crystal film. Splitting the pulse laser beam and synthesizing the split pulse laser beams are performed using at least three optical splitting/synthesizing units arranged in order, and include sequentially splitting one pulse laser beam split by one optical splitting/synthesizing unit by succeeding splitting/synthesizing unit, and synthesizing the other pulse laser beam split by one optical splitting/synthesizing unit with the other pulse laser beam split by preceding splitting/synthesizing unit.

Abstract: A crystallization method includes wavefront-dividing an incident light beam into a plurality of light beams, condensing the wavefront-divided light beams in a corresponding phase shift portion of a phase shift mask or in the vicinity of the phase shift portion to form a light beam having an light intensity distribution of an inverse peak pattern in which a light intensity is minimum in a point corresponding to the phase shift portion of the phase shift mask, and irradiating a polycrystalline semiconductor film or an amorphous semiconductor film with the light beam having the light intensity distribution to produce a crystallized semiconductor film.

Abstract: Disclosed is a simulation apparatus including an input unit, storage unit, arithmetic unit, controller, and output unit. The input unit inputs a first potential at the source end, which corresponds to the gate end of a TFT, on that surface of a thin polysilicon film which faces the gate, a second potential at the source end on the back surface of the thin polysilicon film on which the gate is formed, a third potential at the drain end, which corresponds to the gate end of the TFT, on that surface of the thin polysilicon film which faces the gate, and a fourth potential at the drain end on the back surface of the thin polysilicon film. A drain current is calculated by performing an arithmetic operation on the basis of the first to fourth potentials, and a model is formed by including defect states.

Abstract: A method of manufacturing a thin-film semiconductor device, including forming a crystallized region on a transparent insulating substrate, implanting an impurity into the crystallized region and an amorphous semiconductor layer to form a source diffusion region and a drain diffusion region in the crystallized region, subjecting the resultant structure to heat treatment, thereby not only activating the impurity implanted in the crystallized region and the amorphous semiconductor layer but also restoring crystallinity of only a portion of the amorphous semiconductor layer which is formed on the crystallized region to thereby turn the portion into a polycrystalline semiconductor layer, and subjecting the resultant surface to selective etching to thereby leave only the polycrystalline semiconductor layer and to remove the amorphous semiconductor layer formed on other regions, thereby forming, in a self-aligned manner, a stacked source diffusion layer and a stacked drain diffusion layer.

Abstract: A composite dressing including a first polymeric layer, a second polymeric layer, a metal oxide, and a pharmaceutical active material is provided. The second polymeric layer is biocompatible and is disposed on a surface of the first polymeric layer. The metal oxide is distributed inside or on at least one surface of the first polymeric layer, while the pharmaceutical active material is distributed inside or on at least one surface of the second polymeric layer.

Abstract: A laser crystallization apparatus and a crystallization method with a high throughput are provided. Laser light having a predetermined light intensity distribution is irradiated to a semiconductor film to melt and crystallize, wherein a irradiation position is positioned very quickly and with a high positional accuracy, thereby forming the semiconductor film having a large crystal grain size. A laser crystallization apparatus according to one aspect of the present invention comprises a laser light source, a phase shifter modulating laser light to give a predetermined light intensity distribution, marks provided on the substrate, a substrate holding stage moving in a predetermined direction, mark measuring means measuring a time at which the mark passes a predetermined position, and signal generating means generating a trigger signal indicating the irradiation of the laser light based on the measured time.

Abstract: The present invention provides a wiring, a display device, and a method of manufacturing the same. A first metal diffusion-preventing layer is formed on a substrate or on a circuit element formed on the substrate. Then, a metal wiring layer is selectively formed on the first metal diffusion-preventing layer by an electroless metal plating method or a metal electroplating method. Further, the undesired portion of the first metal diffusion-preventing layer is removed. Finally, a second metal diffusion-preventing layer is formed selectively by an electroless metal plating method in a manner to cover the metal wiring layer or both a seed layer and the metal wiring layer.

Abstract: An optical device comprises a first cylindrical lens array in which a plurality of first lens segments each having a first radius of curvature and a first width so as to divide laser light into a plurality of light components are arranged, and a plurality of second lens segments each having a second radius of curvature and a second width, and provided in at least one position of the first cylindrical lens array so as to be arranged between adjacent first lens segments.

Abstract: A crystallization apparatus includes an illumination system which illuminates a phase shifter having a phase shift portion, and irradiates a polycrystal semiconductor film or an amorphous semiconductor film with a light beam having a predetermined light intensity distribution in which a light intensity is minimum in a point area corresponding to the phase shift portion of the phase shifter, thereby forming a crystallized semiconductor film, the phase shifter has four or more even-numbered phase shift lines which intersect at a point constituting the phase shift portion. An area on one side and an area on the other side of each phase shift line have a phase difference of approximately 180 degrees.