Patent application number | Description | Published |
20090311636 | EXPOSURE APPARATUS, DEVICE MANUFACTURING METHOD, AND APERTURE STOP MANUFACTURING METHOD - A projection exposure apparatus includes an aperture stop that includes a light attenuation part that is located between a light shielding part and an opening part, and has a transmittance larger than that of the light shielding part and smaller than that of the opening part. A width of the light attenuation part is set within a range from a wavefront splitting period of the wavefront splitting device or a value of Z×tan(arcsin(α))/2 to a length that is five times as long as the wavefront splitting period of the wavefront splitting device, where a is a numerical aperture on an exit side of the wavefront splitting device, and Z is a distance between the focal plane of the wavefront splitting device on the exit side and the aperture stop. | 12-17-2009 |
20100208223 | ILLUMINATION OPTICAL SYSTEM, EXPOSURE APPARATUS, AND DEVICE FABRICATION METHOD - The present invention provides an illumination optical system which illuminates an illumination target surface with a light beam from a light source, the system including a plurality of adjustment units each having one of a reflectance distribution and a transmittance distribution to adjust an incident angle distribution of the light beam which impinges on the illumination target surface, the plurality of adjustment units including an adjustment unit which adjusts differences between light amounts, in a first direction, of incident angle distributions of light beams at a plurality of points on the illumination target surface, and light amounts, in a second direction, thereof, and an adjustment unit which adjusts at least one of light amount differences, in the first direction, of the incident angle distributions of the light beams at the plurality of points on the illumination target surface, and light amount differences, in the second direction, thereof. | 08-19-2010 |
20120200006 | IMPRINT APPARATUS AND ARTICLE MANUFACTURING METHOD - An imprint apparatus that includes a holding unit, and performs an imprint process, including molding of an imprint material on a substrate held by the holding unit using a mold, curing of the molded imprint material, and releasing of the cured imprint material from the mold, to form a pattern on the substrate. The apparatus includes a first cure device configured to perform a first cure process for the imprint material molded by the mold prior to the releasing; and a second cure device configured to perform a second cure process for the imprint material on the substrate conveyed out from the holding unit after the releasing. | 08-09-2012 |
20120292801 | IMPRINT APPARATUS, IMPRINT METHOD, AND DEVICE MANUFACTURING METHOD - An imprint apparatus, which is configured to transfer a pattern to an imprint material supplied on a substrate by using a mold having the pattern formed thereon, includes a light-receiving element, a detection system configured to illuminate a mark formed on the substrate and a mark formed on the mold, and guide light reflected from the mark formed on the substrate and the mark formed on the mold to the light-receiving element, and a relay optical system. The relay optical system is configured to form images of the light reflected from the mark formed on the substrate and the mark formed on the mold between the relay optical system and the detection system. The detection system is configured to guide the light image-formed by the relay optical system to the light-receiving element. | 11-22-2012 |
20120328725 | POSITION DETECTION APPARATUS, IMPRINT APPARATUS, AND POSITION DETECTION METHOD - A position detection apparatus includes an illumination optical system for illuminating a first diffraction grating having periods in each of a first direction and a second direction different from the first direction, and a second diffraction grating having a period different from the period in the second direction of the first diffraction grating in the second direction, at an oblique incidence, and a detection optical system for detecting diffracted light from the first diffraction grating and the second diffraction grating, wherein a relative position of the first diffraction grating and the second diffraction grating is detected based on the detected diffracted light, and wherein the illumination optical system includes a plurality of light intensity distributions in the first direction except for on an optical axis of the detection optical system, in a pupil plane thereof. | 12-27-2012 |
20130100459 | DETECTOR, IMPRINT APPARATUS, AND ARTICLE MANUFACTURING METHOD - A detector for detecting interfering light of diffracted light components diffracted by marks formed on first and second objects includes: an illumination optical system configured to form an intensity distribution including first and second poles which illuminate a first mark arranged on the first object and a second mark arranged on the second object; and a detection optical system configured to detect interfering light of light components diffracted by the first and second marks illuminated by the illumination optical system. The detection optical system detects interfering light of diffracted light components generated when light of the first pole is radiated on and diffracted by the first and second marks. The detection optical system does not detect diffracted light components generated when light of the second pole is radiated on and diffracted by the first and second marks. | 04-25-2013 |
20130161868 | IMPRINT LITHOGRAPHY APPARATUS AND DEVICE MANUFACTURING METHOD THEREFOR - An imprint lithography apparatus uses a mold having a pattern formed thereon and transfers the pattern to an imprint material fed to a substrate. The apparatus includes a light-receiving element; a detection system that irradiates a mark formed on the substrate and a mark formed on the mold with light which is reflected therefrom, and guides the light reflected from the mark formed on the substrate and from the mark formed on the mold to the light-receiving element; a relay optical system that causes the light reflected to focus between the mold and the detection system; an illumination system that emits illumination light for curing the imprint material; an optical element having a surface that transmits one of the illumination light and the light from the detection system and reflects the other; and a plate-shaped optical member that corrects aberration of the relay optical system. | 06-27-2013 |
20140153003 | MEASURING APPARATUS, IMPRINT SYSTEM, MEASURING METHOD, AND DEVICE MANUFACTURING METHOD - An measuring apparatus includes: a storage unit configured to store a relationship, regarding an irradiation condition predetermined based on a correlation between a characteristic of each of beams of reflected light obtained from a plurality of patterns different from one another in a thickness of a residual layer in a recessed portion and the thickness of the residual layer of each of the plurality of patterns, between the characteristic of the reflected light from each pattern and the thickness of the residual layer of the pattern; and a processing unit configured to, based on a characteristic of reflected light from a pattern formed on a substrate irradiated with light under the irradiation condition and the relationship stored in the storage unit, obtain a thickness of a residual layer in a recessed portion of the pattern formed on the substrate. | 06-05-2014 |
20140346694 | POSITION DETECTION APPARATUS, IMPRINT APPARATUS, AND POSITION DETECTION METHOD - A position detection apparatus includes an illumination optical system for illuminating a first diffraction grating having periods in each of a first direction and a second direction different from the first direction, and a second diffraction grating having a period different from the period in the second direction of the first diffraction grating in the second direction, at an oblique incidence, and a detection optical system for detecting diffracted light from the first diffraction grating and the second diffraction grating, wherein a relative position of the first diffraction grating and the second diffraction grating is detected based on the detected diffracted light, and wherein the illumination optical system includes a plurality of light intensity distributions in the first direction except for on an optical axis of the detection optical system, in a pupil plane thereof. | 11-27-2014 |
Patent application number | Description | Published |
20090250144 | METHOD OF JOINING HEAT-TREATABLE ALUMINUM ALLOY MEMBERS BY FRICTION STIR WELDING - A method of joining heat-treatable aluminum alloy members by friction stir welding, including the steps of: a T4-treatment-performing step of performing a T4 treatment on heat-treatable aluminum alloy members so as to impart T4 temper to the heat-treatable aluminum alloy members; a joining step of joining the heat-treatable aluminum alloy members with T4 temper by friction stir welding to provide a joined product; and a reversion-treatment-performing step of performing a reversion treatment, the reversion-treatment-performing step being carried out prior to or after the joining step. | 10-08-2009 |
20110236718 | FRAME MEMBER FOR USE IN TWO-WHEELED VEHICLE AND ALL-TERRAIN VEHICLE, AND METHOD FOR PRODUCING THE SAME - A frame member for use in a two-wheeled vehicle and an all-terrain vehicle that includes a plurality of Al members each made of a 7000 series Al alloy having a high strength is provided in which weld crack sensitivity is reduced and a weld joint having an excellent strength is provided. The alloy composition of the 7000 series Al alloy, which provides the Al member, contains Cu: 0.01 to 0.50%, Mg: 0.5 to 2.1%, and Zn: 4.0 to 8.5%, the balance consisting of Al and inevitable impurities. Further, in the production of the frame member, the plurality of Al members is integrated by welding using a filler metal containing Mg: 5.5 to 8.0%, Cr: 0.05 to 0.25%, Ti: 0.25% or less, Si: 0.4% or less, Fe: 0.4% or less, Cu: 0.1% or less, Zr: 0.05% or less and Zn: 0.25% or less, and the balance consisting of Al and inevitable impurities. | 09-29-2011 |
20120312427 | HIGH-STRENGTH ALUMINUM ALLOY PRODUCT AND METHOD OF PRODUCING THE SAME - A high-strength Al—Cu—Mg—Si aluminum alloy product obtained by extrusion is characterized in that the microstructure of the entire surface of the cross-section of the aluminum alloy product is formed of recrystallized grains, the grains have an average aspect ratio (L/t) of 5.0 or less and the orientation density of the grains in the microstructure, for which the normal direction to the {001} plane is parallel to the extrusion direction in comparison with the grains orientated to random orientations, is 50 or less. The high-strength Al—Cu—Mg—Si aluminum alloy product is characterized in that rod-shaped precipitates are arranged in the grains of the matrix in the <100> direction, the precipitates have an average length of 10 to 70 nm and a maximum length of 120 nm or less, and the number density of the precipitates in the [001] direction measured from the (001) plane is 500 or more per square micrometer. | 12-13-2012 |
20140083575 | ALUMINUM ALLOY MATERIAL EXHIBITING EXCELLENT BENDABILITY AND METHOD FOR PRODUCING THE SAME - An aluminum alloy material exhibiting excellent bendability can be produced without performing a straightening step, and can be bent without developing orange peel. The aluminum alloy material is a T4-tempered material formed of an Al—Cu—Mg—Si alloy including 1.0 to 2.5 mass % of Cu, 0.5 to 1.5 mass% of Mg, and 0.5 to 1.5 mass % of Si, with the balance being aluminum and unavoidable impurities, a matrix that forms an inner part of the aluminum alloy material having a microstructure formed by recrystallized grains having an average crystal grain size of 200 μm or less, and the aluminum alloy material having a ratio “tensile strength/yield strength” determined by a tensile test of 1.5 or more. | 03-27-2014 |
Patent application number | Description | Published |
20090196061 | VEHICLE LIGHT AND METHOD - A vehicle cornering light can improve the visibility in a diagonally front area of the vehicle without increasing the luminous intensity of the cornering light (or light source thereof). The cornering light that is provided at or near a front corner of a vehicle and is configured to emit light for illuminating a diagonally front area of the vehicle can include a light source that can emit light with a color temperature of from 3700K to 7000K. The cornering light can emit light for illuminating a lateral area ranging from 60° to 75° with respect to the longitudinal direction of the vehicle. The light source can be composed of a first light source configured to emit light for illuminating an area partly overlapping, or adjacent to, an illumination area of the headlight of the vehicle, and a second light source configured to emit light for illuminating an area partly overlapping, or adjacent to, the illumination area of the first light source. The color temperatures of the headlight, the first light source, and the second light source are sequentially changed to be higher in this respective order. | 08-06-2009 |
20110273897 | Vehicle light - A vehicle light can improve the visibility (noticeability) for pedestrians, roadside obstructs, other vehicles and the like in actual traffic environments. The vehicle light can be configured to project light beams with a predetermined white color, and can include a light source with a color temperature range of 4500 K to 7000 K. The light source emits light beams including four color light beams represented by four coordinate values of predicted colors including red, green, blue and yellow in the a* b* coordinate system corresponding to the CIE 1976 L*a*b* color space. The four coordinate values in the a* b* coordinate system can be encompassed by respective circle areas having a radius of, for example, 5, and each having center coordinate values of (41.7, 20.9) for red, (−39.5, 14.3) for green, (8.8, −29.9) for blue and (−10.4, 74.2) for yellow, for example. | 11-10-2011 |
Patent application number | Description | Published |
20130067996 | SAMPLE DETECTION METHOD BY THIN-LAYER CHROMATOGRAPHY, THIN-LAYER CHROMATOGRAPHY PLATE, AND METHOD FOR PRODUCING SAME - The present invention provides a thin-layer chromatography plate and a thin-layer chromatography that can detect the separation of a component in a sample by a separating agent layer that does not permit the detection of the separation of the component in the sample by an optical response. For a sample that has an optical response to ultraviolet light or a coloring agent, the present invention uses a thin-layer chromatography plate that has a first separating agent layer, which has the same optical response as the sample, and a second separating agent layer, which is disposed adjacent thereto and has an optical response that is different from the aforementioned optical response; carries out development of the sample in the first separating agent layer; thereafter carries out further development of the spots from the first separating agent layer toward the second separating agent layer; and detects the spots in the second separating agent layer through exposure to ultraviolet radiation or a color-development treatment with a coloring agent. In addition, the development axis in the first separating agent layer is maintained approximately perpendicular, and spot broadening at the boundary surface is prevented by adjusting the binder blending ratio. | 03-21-2013 |
20130089468 | SEPARATION/DETECTION COLUMN AND KIT THEREOF - Disclosed is a separation/detection column that can detect a component separated by a separating agent having optical responsivity which is the same as that of a component in a sample. The separation/detection column is configured by filling one end of a tube | 04-11-2013 |
20140248196 | THIN-LAYER CHROMATOGRAPHY PLATE - An object of the present invention is to provide a TLC plate which allows separation and detection of target substances on one plate. Provided is a TLC plate comprising a substrate, a separating medium layer stacked on the substrate, and a permeation layer stacked on the separating medium layer and allowing permeation of a target substance separated in the separating medium layer, wherein the separating medium layer has separating property for the target substance and optical responsiveness for ultraviolet rays, and the permeation layer has optical responsiveness different from that of the separating medium layer. | 09-04-2014 |
20140360927 | CHROMATOGRAPHIC MEDIUM - Provided is a chromatographic medium having a separating agent layer, which is used to separate target substances, and a permeation layer, which is laminated so as to face the separating agent layer and which is used to enable permeation of the target substances separated by the separating agent layer, wherein a region in which the permeation layer is not laminated is present on a part of the separating agent layer, the separating agent layer exhibits separating property for the target substances and exhibits optical responsiveness to ultraviolet rays, and the permeation layer exhibits optical responsiveness that are different from those of the target substances and the separating agent layer. | 12-11-2014 |
20140374333 | CHROMATOGRAPHIC MEDIUM - Provided is a chromatographic medium capable of separating and detecting target substances without the use of other components. A chromatographic medium having a separating agent layer, which is used to separate target substances, a filling agent layer, which is used to fix the target substances before the target substances are separated, and a permeation layer, which is used to enable permeation of the target substances separated by the separating agent layer, wherein the filling agent layer comes into contact with the separating agent layer via a plane that intersects the direction of development of the target substances in the chromatographic medium and is positioned on the upstream side in the direction of development, the separating agent layer exhibits separability of the target substances and exhibits optical responsiveness to ultraviolet rays, and the permeation layer exhibits optical responsiveness that are different from those of the target substances and the separating agent layer. | 12-25-2014 |
Patent application number | Description | Published |
20100188093 | CELL VOLTAGE DETECTING SYSTEM AND DRIVE VOLTAGE MAINTAINING METHOD - In a cell voltage detecting system detecting cell voltages of a fuel cell connected in series, a voltage detector detects cell voltages. An auxiliary power supply generates a voltage equal to or greater than a minimum voltage for driving the voltage detector at positive and negative terminals thereof. First and second diodes are connected to a positive drive terminal of the voltage detector to supply the power to the drive terminal of the voltage detector from a high voltage side between the fuel cell or the auxiliary power supply. A negative terminal of the fuel cell, the negative drive terminal, and the negative terminal of the auxiliary power supply are connected to have a same potential. A method of maintaining a drive voltage for the voltage detector is also disclosed in which the drive voltage for the voltage detector is supplied from the high voltage side. | 07-29-2010 |
20110212646 | CONNECTOR - A connector includes: a housing having a plurality of cavities; and a plurality of terminal fittings that are inserted into the cavities individually and respectively, wherein a lance is formed in each of the cavities, the lance having a lock portion to be locked in a corresponding one of the terminal fittings, wherein the cavities are disposed to be aligned in a bending direction of the lances, and wherein an escape portion is provided in the terminal fitting which is inserted into the cavity disposed to be opposed to the back surface, the escape portion being formed to dent an outer surface of the terminal fitting opposed to the back surface of the lance so that at least a part of a back face portion of the lance is allowed to enter the escape portion when the lance bends elastically toward the back face. | 09-01-2011 |
20110212654 | CONNECTOR - A connector includes: a terminal fitting having a body portion; and a housing having a cavity that receives the terminal fitting, wherein the body portion has a first protrusion that protrudes from an outer surface of the body portion and an interference avoiding portion, wherein the first protrusion and the interference avoiding portion are disposed to be opposed to each other substantially in a diagonal line on a virtual projection plane, and wherein the cavity is formed with, in an inner surface thereof, a first groove into which the first protrusion is allowed to enter only when the terminal fitting has a proper insertion posture relative to the cavity and an interference portion that is formed to swell from the inner surface of the cavity to narrow a gap with the interference avoiding portion. | 09-01-2011 |
Patent application number | Description | Published |
20100034088 | COMMUNICATION APPARATUS - A communication apparatus of the present invention is used in the network where data communication is performed, and includes: a priority data information holding section for holding, in advance, QoS setting information corresponding to domain names, which QoS setting information is necessary to perform QoS setting for data communicated in the network; a control packet snooping section for snooping on a DNS packet received from a DNS server, and obtaining a domain name contained in the DNS packet; and a priority control setting section for, when QoS setting information corresponding to the obtained domain name is contained in the QoS setting information held in the priority data information holding section, performing, based on the QoS setting information, QoS setting for data communication performed by a communication apparatus which is the transmission source of the DNS packet. Thus, the communication apparatus of the present invention can reduce processing load for QoS setting for an AV flow which is used in real time communication, and can detect even an AV flow for which an unpublished protocol or the like is used. | 02-11-2010 |
20130142243 | TRANSMITTING DEVICE, TRANSMITTING METHOD, INTEGRATED CIRCUIT, AND PROGRAM - A transmitting device can suppress degradation of the video quality and determine a proper transmission rate, and include a transmitting unit that transmits a communication packet to a receiving device, a receiving unit that receives a feedback packet, which is a response signal corresponding to the communication packet, from the receiving device, a detecting unit that detects a change of a reception interval of the feedback packet, and a transmission rate determining unit that decreases a transmission rate at which the transmitting unit transmits the communication packet in the case where the change of the reception interval is detected, and increases the transmission rate on the basis of an amount of change of a travelling speed of at least either the transmitting device or the receiving device before and after the decrease in the transmission rate. | 06-06-2013 |