Abstract: The present invention provides a nonaqueous electrolyte secondary battery insulating porous layer having an excellent withstand voltage property and an excellent leakage resistance characteristic. The nonaqueous electrolyte secondary battery insulating porous layer having a trabecular structure including voids, which trabecular structure has an anisotropy value of 1.30 to 2.10, the anisotropy value being calculated from a three-dimensional image showing a void part and a solid content part on respective two gradation levels, the three-dimensional image being prepared by analyzing images of cross sections obtained by making observation at intervals of 20 nm in a thickness direction from a surface of the nonaqueous electrolyte secondary battery insulating porous layer with use of a FIB-SEM having a magnification of 6500 times.

Abstract: Realized is a nonaqueous electrolyte secondary battery coating material which is excellent in storage property, solution sending property, and coating property. The nonaqueous electrolyte secondary battery coating material has a first value and a second value which fall within respective given ranges, the first value being obtained by dividing a viscosity of the nonaqueous electrolyte secondary battery coating material at a shear rate of 0.1 sec?1 by a viscosity of the nonaqueous electrolyte secondary battery coating material at a shear rate of 100 sec?1, the second value being obtained by dividing the viscosity of the nonaqueous electrolyte secondary battery coating material at the shear rate of 0.1 sec?1 by a viscosity of the nonaqueous electrolyte secondary battery coating material at a shear rate of 10,000 sec?1.

Abstract: A nonaqueous electrolyte secondary battery insulating porous layer having which is excellent in heat resistance and oxidation resistance in a battery is realized. A nonaqueous electrolyte secondary battery insulating porous layer includes aromatic polyester containing (A) a unit derived from aromatic hydroxycarboxylic acid, (B) a unit derived from aromatic dicarboxylic acid, (C) a unit derived from aromatic amine, selected from aromatic diamine and aromatic amine containing a hydroxyl group, and (D) a unit derived from aromatic diol, in respective predetermined ratios.

Abstract: An optical member to be arranged in an optical path of a light, includes an optical medium made of an insulator or a semiconductor; a first element provided at a first position in the optical medium and made of a first electric conductor having a width approximately same as or smaller than a wavelength of the light, the first position being a position in the optical path; and a second element provided at a second position, in the optical medium, different from the first position, and made of a second electric conductor having a width approximately same as or smaller than the wavelength of the light, the second position being a position in the optical path.

Abstract: An optical material which has a relative permeability different from 1 to light having a wavelength in, for example, the infrared region or shorter than the infrared region and which is stable in structure, and a liquid and a solid (optical element) using the optical material. The optical material is a powder used as a component of a liquid or solid to which an illuminating light is irradiated, and includes a large number of resonating elements which constitute the powder and each of which is formed of a conductor having a width approximately same as or smaller than a wavelength of the illumination light, and a protective film which is formed of a disc-shaped insulator, wherein an entire surface of each of the split-rind resonators is covered by the protective film.

Abstract: The invention provides for a reduction in the period of time necessary for recycling a separator winding core around which a nonaqueous electrolyte secondary battery separator is wound. The separator winding core is described by the Munsell color system as (i) a lightness of not less than 3.0 but not more than 9.2 and (ii) a chroma of not less than 0.5.

Abstract: A spatial light modulation element module having a large area is manufactured. A spatial light modulation element module comprising a base member and a plurality of spatial light modulation element arrays, wherein each of the plurality of spatial light modulation element arrays has a light modulation element which modulates and emits at least one of the intensity and the phase of an incident light, and the base member maintains the plurality of spatial light modulation element arrays in a predetermined relative position in a bare chip state. In the above-described spatial light modulation element module, the plurality of spatial light modulation element arrays may be in a staggered arrangement in at least 1 direction.

Abstract: A spatial light modulator comprises, a first light modulation element having a substrate, a reflecting mirror, a movable portion displaced relative to the substrate while supporting the reflecting mirror, and a top electrode adsorbing the movable portion by electrostatic force between the movable portion and the top electrode in a position farther away from the substrate than the movable portion, a second light modulation element placed adjacent to the first light modulation element in the substrate, having a reflecting mirror, a movable portion displaced relative to the substrate while supporting the reflecting mirror, and a top electrode adsorbing the movable portion by electrostatic force between the movable portion and the top electrode in a position farther away from the substrate than the movable portion, and electrode supporting portions commonly supporting the top electrodes of the first light modulation element and the second light modulation element relative to the substrate.

Abstract: A laminated porous film includes a porous base material layer containing polyolefin as a main component; a filler layer containing inorganic particles as a main component; and a resin layer containing resin particles as a main component, the resin particles showing an endothermic curve satisfying conditions (1) and (2) below, the endothermic curve being obtained by differential scanning calorimetry. Condition (1): a temperature at which DDSC is not less than 0.10 mW/min/mg is not less than 70° C. Condition (2): endothermic amount calculated from an area of the endothermic curve in a range of not less than 50° C. and not more than 70° C. is not less than ?20.0 J/g.

Abstract: A power supply device includes first and second transformers, a first power source configured to output a first DC voltage from the first transformer, a second power source configured to output a second DC voltage from the second transformer, a first winding on a primary side of the first transformer, an auxiliary winding which is wound in the same winding direction as the first winding, and a voltage generator configured to be connected to the auxiliary winding and to generate a power supply voltage for driving a first controller of the first power source and a second controller of the second power source. When an AC voltage drops, control is performed such that the second controller stops prior to the first controller.

Abstract: To afford a nonaqueous electrolyte secondary battery separator that is not easily curled, a laminated body of the present invention includes: a porous base material containing a polyolefin-based resin as a main component; and a porous layer on at least one surface of the porous base material, the porous layer containing a polyvinylidene fluoride-based resin, the porous film having a lightness (L*) of not less than 83 and not more than 95 and a white index (WI) of not less than 85 and not more than 98, the polyvinylidene fluoride-based resin containing crystal form ? in an amount of not less than 34 mol % with respect to 100 mol % of a total amount of the crystal form ? and crystal form ? contained in the polyvinylidene fluoride-based resin.

Abstract: A laminated porous film includes a porous base material layer containing polyolefin as a main component; a filler layer containing inorganic particles as a main component; and a resin layer containing resin particles as a main component, the resin particles showing an endothermic curve satisfying conditions (1) and (2) below, the endothermic curve being obtained by differential scanning calorimetry. Condition (1): a temperature at which DDSC is not less than 0.10 mW/min/mg is not less than 70° C. Condition (2): endothermic amount calculated from an area of the endothermic curve in a range of not less than 50° C. and not more than 70° C. is not less than ?20.0 J/g.

Abstract: An information processing apparatus includes an acquisition control unit that acquires a plurality of image data sets of an image to be displayed in a plurality of different data formats using an image acquisition unit that acquires image data, and a determination unit that determines one image data set to be displayed by an image display unit from among the plurality of image data sets acquired in the plurality of different data formats by the acquisition control unit based on the image display unit that will display the image.

Abstract: The present invention provides a resin composition comprising the following resin (a) and filler particles. The use of this composition makes it possible to obtain a separator having excellent heat resistance.

Abstract: Provided are (i) a nonaqueous electrolyte secondary battery separator including a porous film, the nonaqueous electrolyte secondary battery separator having a lightness (L*) of not lower than 83 and not higher than 95 and a white index (WI) of not lower than 85 and not higher than 98, and allowing a nonaqueous electrolyte secondary battery to have an excellent rate capacity maintaining property, and (ii) a nonaqueous electrolyte secondary battery.

Abstract: A laminated porous film includes: a porous base material layer containing polyolefin as a main component; a filler layer containing inorganic particles as a main component; and a resin layer containing, as a main component, resin particles having a median diameter (D50) of greater than 1 ?m.

Abstract: The present invention provides, as a nonaqueous electrolyte secondary battery separator having excellent heat resistance and excellent ion permeability, a nonaqueous electrolyte secondary battery separator which includes a porous layer including: a nitrogen-containing aromatic polymer A; and an aromatic polymer B differing in structural unit from the nitrogen-containing aromatic polymer A.

Abstract: The spatial light modulator is provided with: a substrate; a fixed electrode disposed on a surface of the substrate; a connecting section, which has one end of the connecting section connected to the surface of the substrate; a movable section, which is connected to another end of the connecting section; a supporting post section, which extends in the thickness direction of the substrate with one end of the supporting post section connected to the movable section; a reflecting member, which is connected to another end of the supporting post section; a movable electrode, which is disposed on a surface of the reflecting member, the surface of the reflecting member facing the fixed electrode; and a conductive layer, which is disposed on the supporting post section with a film thickness larger than that of the movable electrode, and which electrically connects between the movable section and the movable electrode.

Abstract: A laminated porous film includes a porous base material layer containing polyolefin as a main component; a filler layer containing inorganic particles as a main component; and a resin layer containing resin particles as a main component, the resin particles showing an endothermic curve satisfying conditions (1) and (2) below, the endothermic curve being obtained by differential scanning calorimetry. Condition (1): a temperature at which DDSC is not less than 0.10 mW/min/mg is not less than 70° C. Condition (2): endothermic amount calculated from an area of the endothermic curve in a range of not less than 50° C. and not more than 70° C. is not less than ?20.0 J/g.

Abstract: The present invention provides a resin composition comprising the following resin (a) and filler particles. The use of this composition makes it possible to obtain a separator having excellent heat resistance.