Abstract: A single-focal-length imaging lens system achieves focusing by, while keeping first and third lens groups stationary relative to the image plane, moving a second lens group along the optical axis. The second lens group includes a positive lens element. The third lens group includes an aspherically shaped lens element having an inflection point at a position other than the intersection with the optical axis. The first and second air lenses formed by the intervals between the first and second and between the second and third lens groups have negative and positive refractive powers respectively. The conditional formula 0?|Fi1/Fi2|?|Fm1/Fm2|?10 is fulfilled (Fi1 and Fi2 representing the focal lengths of the first and second air lenses, respectively, when focusing on the infinite object distance; Fm1 and Fm2 representing the focal lengths of the first and second air lenses, respectively, when focusing on the closest object distance).

Abstract: Provided is a zoom lens including a first lens group having negative refractive power, a second lens group having positive refractive power, a third lens group having negative refractive power, and a fourth lens group having positive refractive power. The first lens group contains a reflective optical element that bends the light path. In order from the object side, the second lens group comprises a positive 2p1 lens, a negative 2n lens, and a positive 2p2 lens. The third lens group comprises a single negative lens. Letting n2n be the index of refraction of the 2n lens, n2p2 be the index of refraction of the 2p2 lens, ?2p2 be the Abbe number of the 2p2 lens, and ?2n be the Abbe number of the 2n lens, 0.30<n2n?n2p2<0.50 and 30<?2p2??2n<60.

Abstract: In a laminated piezoelectric body, a laminated piezoelectric body manufacturing method, an ultrasound transducer, and an ultrasound diagnostic device according to the present invention, a plurality of mutually laminated piezoelectric bodies are electrically connected in parallel to each other, and each of the plurality of piezoelectric bodies arranges an orientation of residual polarization or a crystal axis that is related to an electrical displacement or a sign of an electric field due to a direct piezoelectric effect in a direction which reduces sensitivity in a first resonance mode and increases sensitivity in a second resonance mode of a higher order than the first resonance mode with respect to an axis of a first-level piezoelectric body on a fixed end-side.

Abstract: Provided is a nozzle sheet manufacturing method by which highly fine manufacture and low cost are achieved. The method for manufacturing a nozzle sheet to be used for an inkjet head for an inkjet printer is provided with a step of forming a first resin sheet on a patterned liquid repellent film on a first dummy substrate, a step of forming a first nozzle which penetrates the first resin sheet, and a step of peeling the first dummy substrate.

Abstract: In an image forming apparatus, a line width detection unit detects a line width from attribute data inputted from an attribute data input unit, an edge detection unit detects an edge from image data inputted from an image data input unit, and an AND calculation unit calculates an AND of results of these detections. A coefficient storage unit stores a coefficient set for each line width. A line width correction coefficient multiplication unit acquires a correction coefficient corresponding to the detected line width with regard to an edge and the detected pixel and performs a multiplication to thereby correct the line width.

Abstract: A job including image data to be subjected to printing is transmitted from a user PC to an image forming apparatus. Upon execution of printing in the image forming apparatus, the image forming apparatus notifies the user PC of completion of printing. The image forming apparatus also saves the job subjected to printing after assigning an ID for saving to the job. A screen appears on the user PC to give notification of completion, with a button for giving an instruction for re-outputting. The user PC gives an instruction to re-output the job by pressing the button, so that the image forming apparatus does reprinting.

Abstract: A heat generating sleeve (19) having a high ability to control an amount of heat generation of itself and sufficient strength comprises a heat controlling layer (30) consisting of annealed permalloy, and a main heating layer (31) consisting of unannealed metal plated on a surface of the heat controlling layer (30).

Abstract: The scintillator plate has a reflective layer, a resinous anti-corrosion layer and a scintillator layer provided sequentially in that order on a heat resistant resin substrate. The scintillator plate is employed as a component for a flat panel radiation detector. The scintillator plate has a protective film between the scintillator layer and the flat light receiving element which makes up the flat panel radiation detector. There is point contact between the surface of the scintillator layer and the protective film and there is point contact between the flat light receiving element and the protective film.

Abstract: Disclosed is a method for forming an image with an ink-jet recoding method which forms the image on a coated printing paper by employing an ink containing water in an amount of 20 to 90% weight based on the total weight of the ink, a pigment and a resin, the method containing the sequential steps of: applying an aqueous processing solution on the coated printing paper; drying the aqueous processing solution applied on the coated printing paper; and ejecting droplets of the ink on the coated printing paper, wherein the aqueous processing solution is capable of aggregating the ink or increasing a viscosity of the ink, and the coated printing paper is heated from 40 to 60° C. during the step of ejecting the droplets of the ink.

Abstract: A method of compensating for misalignment of a print engine of an image forming apparatus, which includes: (a) forwarding a request from a host computer having a printer driver to an image forming apparatus for reference data of a printable area of the print engine; (b) sending the reference data of the printable area of the print engine to the printer driver; (c) comparing the reference data of the printable area of the print engine to an ideal reference data of the printable area of a print job; and (d) if the reference data of the printable area of the print engine is different than the ideal reference data of the printable area of the print job, generating a new reference data of the printable area of the printable area to adjust for the difference in printable area between the ideal reference data of the printable area of the print job and the reference data of the printable area of the print engine.

Abstract: Disclosed herein is an image processing apparatus including: a screen processor for determining each pixel value of a screen processing application unit region composed of a plurality of pixels to which a threshold matrix is applied, in an inputted image; and for carrying out a screen processing by applying one threshold matrix among a plurality of threshold matrices in which applied positions of the threshold values are different from each other, to the plurality of pixels in the screen processing application unit region based on each determined pixel value.

Abstract: Disclosed is an electrophotogaphic photoreceptor that causes little or no abrasion-derived uneven image density and does not cause scratches and image defects attributable to the occurrence of scratches even after a large volume, for example, exceeding 1,000,000 sheets of printing, and that does not cause image blurring even after printing in an environment of a high-temperature and a high-relative humidity (RH) respectively exceeding 30° C. and 80%.

Abstract: In a lens unit 1, and an image sensing apparatus 15 incorporated with the lens unit 1 of the invention, a fixed cylinder 2 is formed with an oblong hole 21 extending in an optical axis direction in a lateral surface of the fixed cylinder 2. A driving force from a driving member such as a motor 12 is transmitted to a gear portion formed on an outer periphery of a cam cylinder 3 by a major axis gear 10 received in the oblong hole 21. Thereby, the cam cylinder 3 is rotated, and a lens holding frame is driven in the optical axis direction for a zoom operation. A pressing member 13 for pressing the major axis gear 10 in the optical axis direction during the zoom operation is provided at an end surface of the major axis gear 10.

Abstract: An inkjet ink which is reduced in system load and is superior in continuous ejection stability, high aptitude for plain paper and excellent in text quality, fixability and image texture is disclosed, comprising an unsaturated fatty acid ester, a compound capable of allowing an ink composition to reversibly gel in an amount of 0.5 to 20% by mass, based on total mass of the ink, and a resin in an amount of 10 to 30% by mass, based on total mass of the ink, and an inkjet image forming method is also disclosed.

Abstract: Disclosed is a production method for an organic electroluminescent element that is provided with a substrate, an organic laminate with an organic light emitting layer that was formed by a method involving a wet process, and a pair of electrodes, wherein the method produces an organic electroluminescent element with high luminous efficiency, low driving voltage, and a minimal rise in voltage when continuously driven, by applying the coating liquid for said organic light emitting layer, and thereafter, in a drying process, heating the substrate while applying tension in a manner such that a stress that is less than the yield stress is applied to the substrate.

Abstract: An image processing apparatus comprises: an image processor which performs a plurality of image processing operations on one target data object separately; a display; and a controller which extracts from the target data object a plurality of data sections changed by the image processing operations of the image processor and displays the extracted data sections all together on the display as preview images.

Abstract: An imaging device having an optical imaging system which has a parallel plate which is transparent at least in a visible light region, is joined by adhesives and is held on a holding member, wherein the holding member including: an opening section which is provided in order to pass light rays from the optical imaging system; a holding surface for holding a periphery of the parallel plate, formed around the opening section in a square shape, and intersecting perpendicularly to an optical axis of the optical imaging system; a side wall which is provided to stand parallel to the optical axis at an outside with respect to the opening section of the holding surface; and an adhesive collecting section which is arranged in each of four corners of the holding surface and is hollowed from the holding surface.

Abstract: An image forming apparatus includes a temperature sensor detecting an operating ambient temperature of the polygon motor, and a controller controlling the polygon motor and the paper feed mechanism. If the temperature detected by the temperature sensor is equal to or greater than a preset temperature, the controller controls, before operation for giving a command to start image formation is performed, the polygon motor to rotate; increases, in response to the operation, a rotational speed of the polygon motor up to a rated speed; and controls the paper feed mechanism to start conveying a sheet of paper at a time when a period of time variable depending on the detected temperature has elapsed, the period of time being preset to be shorter as the detected temperature increases, in expectation of a time required for the rotational speed of the polygon motor to reach the rated speed.

Abstract: Disclosed in an x-ray imaging device, which uses a Talbot-Lau interferometer, eliminates the effects on image quality of a reconstructed image that arises in such cases as when the direction of a multi-slit or each lattice slit is altered and imaging is performed, and provides reconstructed images favorable for diagnosis. When a plurality of moire images imaged with an imaging subject loaded onto a imaging subject stand (13) and a plurality of moire images imaged without the imaging subject are input, a control unit (51) of a controller (5) corrects signal value differences arising from variations in x-ray strength during imaging respectively between the plurality of moire images with the imaging subject and between the plurality of moire images without the imaging subject, and respectively creates a reconstructed image with the imaging subject and a reconstructed image without the imaging subject.

Abstract: A threshold generation device sets a ratio of a length along a main scanning direction to a length along a sub-direction based on a relation between image reproducibility in the main scanning direction and image reproducibility in the sub-direction of an image processing device for forming an image on a paper based on an image data obtained by the halftone processing. The device determines spatial frequency characteristics having a domain of an ellipse shape having set major axis and minor axis as peak values. The device sets a threshold value of each pixel of the threshold matrix in accordance with the determined spatial frequency characteristics.