Abstract: There is provided a method for manufacturing a solar cell, including the steps of: applying an antireflective-film-forming solution containing at least one of a metal oxide and a precursor of the metal oxide onto one main surface of a semiconductor substrate; and heating the semiconductor substrate having the antireflective-film-forming solution applied thereon, wherein in the step of applying an antireflective-film-forming solution, the antireflective-film-forming solution is applied in such an atmosphere that a water content is 0 g/m3 or more and 9.4 g/m3 or less.

Abstract: A rare earth sintered magnet consists essentially of 26-36 wt % R, 0.5-1.5 wt % B, 0.1-2.0 wt % Ni, 0.1-3.0 wt % Si, 0.05-1.0 wt % Cu, 0.05-4.0 wt % M, and the balance of T and incidental impurities wherein R is a rare earth element, T is Fe or Fe and Co, M is selected from Ga, Zr, Nb, Hf, Ta, W, Mo, Al, V, Cr, Ti, Ag, Mn, Ge, Sn, Bi, Pb, and Zn. Simultaneous addition of Ni, Si, and Cu ensures magnetic properties and corrosion resistance.

Abstract: According to an aspect of the invention, a light-emitting element includes a semiconductor layer, a gold electrode layer, an insulator, a barrier metal layer, and an aluminum wiring layer. The gold electrode layer is formed on a part of the semiconductor layer and is electrically connected to the semiconductor layer. The gold electrode layer being made of metal including gold. The insulator film covers the semiconductor layer and has a contact opening corresponding to the gold electrode layer. The barrier metal layer covers a an upper face of the gold electrode layer and the insulator film in a vicinity of the contact opening. The aluminum wiring layer is formed on the barrier metal layer and electrically connected to the barrier metal layer.

Abstract: A lens array plate of long-size or large area is provided reducing deterioration of optical performance. A lengthy lens array plate (10), which is based on manufacturing process in accordance with the present invention, is formed by connecting a plurality of planar-shaped lens array plates (1) in the longer direction thereof, the planar-shaped lens array plate (1) including a plurality of lens portions that are regularly arranged. The connecting portion (3) is linearly formed at the position other than the plurality of lens portions. Thereby, a lengthy lens array plate with any length may be formed.

Abstract: A non-transitory computer-readable recording medium includes a printing management program, which, when processed by a computer, causes the computer to function as a scheduling unit configured to schedule a print job in an image forming apparatus, the print job having a printing capability that matches a printing capability set in the image forming apparatus; and a capability change job generator configured to generate a capability change job having an instruction to change the printing capability set in the image forming apparatus. When the capability change job generated by the capability change job generator is scheduled in the image forming apparatus, the scheduling unit schedules the print job having the printing capability that matches the printing capability changed by the capability change job after the capability change job.

Abstract: Disclosed is a non-transitory computer readable recording medium that stores a print management program causing a computer to function as a job progress status display unit that divides job progress statuses of a print job into plural categories and displays plural of the categories so that each of the categories can be selected; and a job list display unit that selects and lists first print jobs in a first job progress status from a first table that stores job progress statuses of print jobs. The job list display unit selects first functions corresponding to the first job progress status of the listed first print jobs from a second table that stores functions corresponding to the divided job progress statuses, and displays icons. Here, each of the icons accepts execution of corresponding one of the selected first functions.

Abstract: A print control device including a sheet-base printing speed table that indicates a sheet-base printing speed for each printer; a printing time calculation unit that calculates a printing time associated with a print job based on a printing speed corresponding to a sheet used for the print job by referencing the sheet-base printing speed table; and a first display control unit that displays the print job in a predetermined display mode that has a length proportional to the printing time that is calculated.

Abstract: A light-emitting element array with the improvement of the light-emitting efficiency and the improvement of the uneven amount of light is provided. A light-emitting element array comprises a light-emitting portion array consisting of a plurality of light-emitting portions linearly arranged in a main scanning direction, and a micro-lens formed on each of the light-emitting portions, wherein the micro-lens has a shape of the length of a sub-scanning direction different from the length of the main scanning direction, and the length of the sub-scanning direction is longer than the length of the main scanning direction, and is 3.5 times or less of the length of the main scanning direction.

Abstract: A rare earth sintered magnet consists essentially of 26-36 wt % R, 0.5-1.5 wt % B, 0.1-2.0 wt % Ni, 0.1-3.0 wt % Si, 0.05-1.0 wt % Cu, 0.05-4.0 wt % M, and the balance of T and incidental impurities wherein R is a rare earth element, T is Fe or Fe and Co, M is selected from Ga, Zr, Nb, Hf, Ta, W, Mo, Al, V, Cr, Ti, Ag, Mn, Ge, Sn, Bi, Pb, and Zn. Simultaneous addition of Ni, Si, and Cu ensures magnetic properties and corrosion resistance.

Abstract: A coating and developing system includes processing blocks of the same construction each built by stacking up a plurality of unit blocks including a film forming unit block and a developing unit block in layers. The processing blocks are arranged longitudinally between a carrier block and an interface block. The number of processing blocks like the processing blocks arranged between the carrier block and the interface block is adjusted to adjust the throughput of the coating and developing system. Thus, a coating and developing system capable of achieving a desired throughput can be easily designed and manufactured.

Abstract: A lens-attached light-emitting element having an improved optical availability efficiency includes a composite lens provided on an approximately U-shaped light-emitting area of the light emitting element array. Four spherical lenses are arranged in such a manner that each is centered in the neighborhood the an end of a respective one of three segments of a U-shaped polygonal line corresponding to positions where light emitted by the U-shaped light-emitting area is a maximum Three cylindrical lens are arranged between two of the spherical lens, respectively, each cylindrical lens having an axis parallel with each segment. These four spherical lenses and three cylindrical lenses together constitute the composite lens. The light-emitting element further comprises an antireflection film covering the light-emitting area, and the composite lens is formed on the surface of the antireflection film.

Abstract: A rod- or plate-shaped light guide includes a first end that receives illuminating light incident thereon, a bottom surface having a reflecting portion thereon for reflecting the light, an emitting face which emits the reflected light, and a protruding portion protruding longitudinally and continuously from the light guide at a second end thereof. The protruding portion has a reduced peripheral dimension compared to a peripheral dimension of an adjacent portion of the light guide, and a reflective body is provided on the protruding portion and covers a longitudinal end face of the protruding portion extending perpendicular to the emitting face. When viewed along an axial direction of the light guide, the reflective body does not jut out from an end face of the light guide even when the body wraps on to a side surface of the protruding portion or expansion occurs.

Abstract: According to an aspect of the invention, a light-emitting element includes a semiconductor layer, a gold electrode layer, an insulator, a barrier metal layer, and an aluminum wiring layer. The gold electrode layer is formed on a part of the semiconductor layer and is electrically connected to the semiconductor layer. The gold electrode layer being made of metal including gold. The insulator film covers the semiconductor layer and has a contact opening corresponding to the gold electrode layer. The barrier metal layer covers a an upper face of the gold electrode layer and the insulator film in a vicinity of the contact opening. The aluminum wiring layer is formed on the barrier metal layer and electrically connected to the barrier metal layer.

Abstract: A coating and developing system has a first processing block, a second processing block, and a transfer block interposed between the first and the second processing block. A first direct carrying means carries substrates from a carrier block to the transfer block. The transfer block distributes the substrates to respective film forming unit blocks of the first and the second processing block. Substrates on which films have been formed by the first and the second processing block are collected temporarily in the transfer block. A second direct carrying means carries the substrate collected in the transfer block from the transfer block to an interface block. Use of the first and the second processing block can improve the throughput of the coating and developing system. Since a carrying route from the carrier block to the first processing block, and a carrying route from the carrier block to the second processing block are the same, a carrying program is easy to create.

Abstract: An in-vehicle stereoimage display apparatus includes a display device, an erecting unit magnification lens module spaced from and facing toward a display screen of the display device for forming an erecting unit magnification stereoimage of an image displayed on the display screen, a lens movement mechanism for movably supporting the erecting unit magnification lens module, and a controller for changing the position of the erecting unit magnification lens module in accordance with the travel velocity of a vehicle. In one example, the controller increases the distance between the vehicle driver's eyes and the erecting unit magnification stereoimage as the travel velocity of the vehicle increases.

Abstract: A coating and developing system that includes two rotating members having parallel horizontal axes of rotation and disposed longitudinally opposite to each other, a carrying passage forming mechanism extended between the rotating members to form a carrying passage, and capable of moving along an orbital path to carry a wafer supported thereon, a sending-in transfer unit disposed at the upstream end of the carrying passage, a sending-out transfer unit disposed at the downstream end of the carrying passage, a developer pouring nozzle for pouring a developer onto the wafer, a cleaning nozzle for pouring a cleaning liquid onto the wafer, and a gas nozzle for blowing a gas against the wafer. The developer pouring nozzle, the cleaning nozzle, and the gas nozzle are arranged in a direction in which the wafer is carried along the carrying passage between the upstream and the downstream end of the carrying passage.

Abstract: A rare-earth alloy ingot is produced by melting an alloy composed of 20-30 wt % of a rare-earth constituent which is Sm alone or at least 50 wt % Sm in combination with at least one other rare-earth element, 10-45 wt % of Fe, 1-10 wt % of Cu and 0.5-5 wt % of Zr, with the balance being Co, and quenching the molten alloy in a strip casting process. The strip-cast alloy ingot has a content of 1-200 ?m size equiaxed crystal grains of at least 20 vol % and a thickness of 0.05-3 mm. Rare-earth sintered magnets made from such alloys exhibit excellent magnetic properties and can be manufactured under a broad optimal temperature range during sintering and solution treatment.

Abstract: A lens array plate of long-size or large area is provided reducing deterioration of optical performance. A lengthy lens array plate (10), which is based on manufacturing process in accordance with the present invention, is formed by connecting a plurality of planar-shaped lens array plates (1) in the longer direction thereof, the planar-shaped lens array plate (1) including a plurality of lens portions that are regularly arranged. The connecting portion (3) is linearly formed at the position other than the plurality of lens portions. Thereby, a lengthy lens array plate with any length may be formed.