Abstract: An electronic component capable of suppressing variations in dimension of plating growth of a plating film serving as an external electrode. The external electrodes include plating films formed so as to extend from each of end surfaces to side surfaces of an electronic component body by electrolytic plating. Underlying main electrodes in which the degree of plating growth is relatively high, and underlying sub-electrodes in which the degree of plating growth is relatively low, are formed as a seed electrode serving as a starting point of plating growth for forming a plating film.

Abstract: A packing apparatus includes a sealing mechanism, a timing sensing section, and a control section. The sealing mechanism affixes tape continuously on portions of a cardboard box transported with major flaps thereof folded. The sealing mechanism includes an affixing roller to press the tape against a first side surface and the major flaps. The timing sensing section senses the timing at which the affixing of the tape on the first side surface is initiated. The control section controls pressing force exerted by the affixing roller, based on a result of the sensing performed by the timing sensing section, in such a way that the pressing force is reduced after the affixing of the tape on the first side surface is initiated.

Abstract: An imaging device includes: an imaging control unit configured to enable an imaging unit to operate after first predetermined time from stating of power supply to the imaging unit; a display control unit configured to control a display unit to display image data generated by the imaging unit after second predetermined time from starting of power supply to the display unit, the second predetermined time being longer than the first predetermined time; and a display image data generating unit configured to generate image data from when the display control unit controls the display unit to display the image data to when transition to a capturable state completes, to sequentially reduce or magnify an image formed based on the image data, and to control the display unit to display the reduced or magnified image.

Abstract: Provided are an inkjet printing apparatus and a recovery processing method which can suppress occurrence of defective ejection and can suppress an ink consumption amount. For that purpose, information relating to a condensation degree of ink is obtained, and ejection operation is made in accordance with the obtained condensation degree of ink.

Abstract: A push-in mechanism pushes articles into a box that is opened sideways. The push-in mechanism is provided with a box standby part, an article placement part, a push-in plate, a horizontal movement mechanism, and a lifting/lowering mechanism. The box standby part causes the boxes to wait. The article placement part has a placement surface on which the articles are temporarily placed. The push-in plate is installed in a standing state so as to have a pressing surface for pressing the articles toward the box. The horizontal movement mechanism causes the push-in plate to reciprocate horizontally above the placement surface so that the push-in plate moves toward the box or moves away from the box. The lifting/lowering mechanism moves the push-in plate so as to change a separation distance in the height direction between a lower edge of the pressing surface and the placement surface.

Abstract: Disclosed are polishing material particles which have polishing performance suitable for precision polishing and also have a high polishing speed and high monodispersibility; a polishing material containing the polishing material particles; and a polishing processing method using the polishing material. The polishing material particles are spherical particles having an average aspect ratio of 1.00 to 1.15, wherein the particle diameter (D50 (nm)) of the polishing material particles as determined from a particle diameter cumulative distribution curve falls within the range from 50 to 1500 nm. The average content of cerium or the total content of cerium and at least one element selected from lanthanum (La), praseodymium (Pr), neodymium (Nd), samarium (Sm) and europium (Eu) in the polishing material particles is 81 mol % or more relative to the total content of all of rare earth elements that constitute the polishing material particles.

Abstract: According to one embodiment, the stacked body includes a plurality of electrode layers stacked with an insulator interposed. The electrode layers have a plurality of terrace portions arranged in a stairstep configuration with a difference in levels. The insulating layer is provided above the terrace portions. The columnar portions extend in a stacking direction of the stacked body through the insulating layer and through the stacked body under the insulating layer. The columnar portions are insulative. The contact portions are provided at side surfaces of the columnar portions on the terrace portions. The contact portions are connected to the terrace portions.

Abstract: An inkjet printing apparatus and its control method which can suppress defective ejection and wasteful ink consumption are provided. For that purpose, pigment density Nx of the ink in a circulation path is calculated, and the ink in the circulation path is discharged on the basis of the pigment density Nx.

Abstract: A medical image processing apparatus includes a retriever, a determiner and a calculator. The retriever retrieves a medical image of a bone and a soft tissue of a subject. The determiner determines a position of at least one of an end of the bone and an end of the soft tissue based on the medical image retrieved by the retriever. The calculator calculates a feature value relevant to a condition of the soft tissue based on the position of at least one of the end of the bone and the end of the soft tissue determined by the determiner.

Abstract: In order to use less cerium oxide and achieve higher durability and polishing speeds, these abrasive particles used in an abrasive have: a shell layer (3) which is the outermost shell layer of the abrasive particles and is formed with cerium oxide as the main component; and a middle layer (2) which contains cerium oxide and an oxide of at least one element selected from Al, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Ga, Ge, Zr, In, Sn, Y, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu, W, Bi, Th, and the alkali earth metals, and which is formed closer to the center of the abrasive particles than the shell layer (3).

Abstract: A carbon fiber bundle for resin reinforcement, wherein there are adhered by 0.1-5.0 mass % to a carbon fiber bundle in which multiple lengths of filament are bundled, a mixture created by mixing an organic polymer (A) having a mass-average molecular weight of 10000 or more and an organic compound (B) the thermal reduction rate specified in claim 1 of which is 5 mass % or more or an organic compound (B) the thermal reduction rate specified in claim 2 of which is 0.8 mass % or more, the amount of the organic polymer (A) adhered being 0.1 mass % or more.

Abstract: To provide a compound having high TB and a contrast agent for optical imaging. The compound has a molecular weight of a specific range, the compound in which two polyethylene glycols are bonded to a specific cyanine pigment through a linker. The present invention provides a compound which has a high T/B and which can be used as a contrast agent capable of imaging a tumor portion with high contrast.

Abstract: To provide a polymer having a high ratio of the amount thereof present in a tumor to the amount thereof present in blood (hereinafter, sometimes abbreviated as a tumor/blood ratio). The polymer has phosphorylcholine (derivative) as a side chain and has a dye (near-infrared dye) having absorption in the near-infrared wavelength region bound to the polymer.

Abstract: A photoacoustic apparatus, comprises a light source that irradiates an object with light; a plurality of acoustic wave detectors that receive acoustic waves generated from the object, convert the acoustic waves into an electrical signal, and output the electrical signal; and an information acquisition unit that acquires information of the object, based on the electrical signals, wherein the information acquisition unit acquires, for each of the acoustic wave detectors, a change in the intensity of the electrical signal, after the object that has been injected with a contrast agent is irradiated with light that decomposes the contrast agent, and acquires information relating to blood flow, based on the change in the intensity of the electrical signal.

Abstract: Technique to provide an abrasive regeneration method which, from a used abrasive, can recover an abrasive by an efficient method and can thereafter obtain a high-purity regenerated abrasive by a simple method. This abrasive regeneration method uses an abrasive comprising at least one type of abrasive selected from diamond, boron nitride, silicon carbide, alumina, alumina zirconia, zirconium oxide and cerium oxide. The abrasive regeneration involves a slurry recovery step (A) for recovering an abrasive slurry discharged from a polishing machine, a separation and concentration step (B) for adding an alkaline earth metal salt as an inorganic salt to the recovered abrasive slurry to aggregate the abrasive, and separating and concentrating the abrasive from a mother liquor, an abrasive recovery step (C) for recovering the separated and concentrated abrasive, and a second concentration step (D) for filter-treating the concentrated abrasive.

Abstract: Abrasive material regeneration method regenerates a cerium oxide abrasive material from a used abrasive material slurry containing the cerium oxide abrasive material and resulting from grinding a grinding subject having silicon as the primary component, characterized by regenerating the abrasive material containing cerium oxide through: a slurry recovery step (A) for recovering an abrasive material slurry discharged from a grinder; an isolation/concentration step (B) for adding a magnesium salt as an inorganic salt to the recovered abrasive material slurry, aggregating the abrasive material under the condition that the pH value of the mother liquor converted to 25 DEG C is at least 6.5 and less than 10.0, and thus isolating and concentrating the abrasive material from the mother liquor; and an abrasive material recovery step (C) for recovering the isolated and concentrated abrasive material.

Abstract: According to one embodiment, the stacked body includes a plurality of electrode layers stacked with an insulator interposed. The electrode layers have a plurality of terrace portions arranged in a stairstep configuration with a difference in levels. The insulating layer is provided above the terrace portions. The columnar portions extend in a stacking direction of the stacked body through the insulating layer and through the stacked body under the insulating layer. The columnar portions are insulative. The contact portions are provided at side surfaces of the columnar portions on the terrace portions. The contact portions are connected to the terrace portions.

Abstract: According to one embodiment, columnar portions extend through an insulating layer and through a stacked body under the insulating layer. The columnar portions are of an insulating material different from the insulating layer. Contact portions include a first contact portion disposed inside a first terrace portion and a second contact portion disposed inside a second terrace portion. The columnar portions including a first columnar portion disposed inside the first terrace portion and a second columnar portion disposed inside the second terrace portion. A shortest distance between the first contact portion and the first columnar portion, and a shortest distance between the second contact portion and the second columnar portion are substantially equal to each other.

Abstract: The purpose of the present invention is to provide a carbon fiber bundle for resin reinforcement purposes, which is produced using a sizing agent that can exert satisfactory interface adhesiveness to both of a carbon fiber bundle and a thermoplastic resin in the production of a carbon-fiber-reinforced thermoplastic resin, and which has satisfactory emulsion stability. One embodiment of the present invention is a carbon fiber bundle for resin reinforcement purposes, which comprises a carbon fiber bundle and a polymer adhered onto the carbon fiber bundle, wherein the polymer is produced by binding an acid-modified polyolefin having a polyolefin structure and an acidic group in the molecular structure thereof to a hydrophilic polymer having a weight average molecular weight (Mw) of 450 or more, and wherein the ratio of the mass of the polyolefin structure to the mass of the acidic group in the acid-modified polyolefin is 100:0.

Abstract: According to one embodiment, a method of manufacturing a semiconductor device includes forming a first film on a substrate. The method further includes forming a second film on the first film. The method further includes simultaneously flowing a first gas with a second gas containing a metal element to form a first opening in the second film and forming a third film containing the metal element on a side surface of the first opening. The method further includes forming a second opening in the first film below the first opening using the second film as a mask.