Abstract: An optical modulator including a flexible printed circuit performing an electrical connection with an external circuit substrate, in which the flexible printed circuit includes a plurality of first pads and the like provided on one surface of the flexible printed circuit along one side of the flexible printed circuit, a plurality of second pads and the like provided on the other surface of the flexible printed circuit at locations that respectively correspond to the plurality of first pads, and a plurality of metal films and the like provided at locations that respectively correspond to the first pads on a side surface of the flexible printed circuit along the one side of the flexible printed circuit.

Abstract: An electrostatic chuck device according to the present invention includes: an electrostatic chuck portion having a placement surface on which a plate-like sample is placed; a base portion for temperature adjustment disposed in opposition to the side of the electrostatic chuck portion on the opposite side from the placement surface; a bonding portion for bonding the electrostatic chuck portion and the base portion for temperature adjustment together; and an annular focus ring surrounding the periphery of the placement surface, in which the volume of a space surrounded by the electrostatic chuck portion, the focus ring, the bonding portion, and a dam portion of the base portion for temperature adjustment is greater than the amount of volume expansion of the bonding portion at the working temperature.

Abstract: Provided is an electrostatic chuck device in which breakdown between an electrostatic chuck portion and a cooling base portion can be prevented, voltage endurance can be improved, uniformity in the in-plane temperature of a mounting surface of the electrostatic chuck portion where a plate-shaped sample is mounted can be improved, and voltage endurance of a heating member can be improved by applying a uniform voltage between the electrostatic chuck portion and the cooling base portion.

Abstract: Provided is an optical-waveguide-element module in which a common connecting substrate is used for different optical waveguide elements and deterioration of the propagation characteristics of electrical signals in a curved section of a signal electrode is suppressed.

Abstract: An optical element module includes an optical modulation element having first and second optical modulator units, a polarization combining means for combining two modulated lights which are emitted from the first and second optical modulator units, by making planes of polarization orthogonally cross each other; a housing which houses the optical modulation element and the polarization combining means; and a lens holder which holds a collimating lens which is disposed between the polarization combining means and an optical fiber, with the lens holder further holding the optical fiber. The optical element module is configured by joining the housing and the lens holder together by welding. In the lens holder, an outer diameter of a welding place is smaller than an outer diameter of a part which holds the collimating lens.

Abstract: A curable silicone resin composition is provided, including (A) a curable silicone resin-forming component of which a viscosity is 0.02 Pa·s or greater and 100 Pa·s or less, (B) surface-modified metal oxide particles which are surface-modified by a surface-modifying material having a reactive functional group and have an average primary particle diameter of 3 nm or more and 10 nm or less, and (C) a silicone compound having a reactive functional group of which a viscosity is less than the viscosity of the (A) component and is 0.01 Pa·s or greater and 1.0 Pa·s or less and having a content of 0.1% by mass or more and 15% by mass or less based on a total amount of the composition, in which a viscosity is 1.0 Pa·s or greater and 100 Pa·s or less.

Abstract: An electrostatic chuck device comprising: a placing table having a placing surface on which a plate-shaped sample is placed, an electrostatic attraction electrode, which is located on a lower side of the placing table in such a manner that the electrode is located on a surface side opposite to the mounting surface of the placing table, a base part on which at least the placing table and the electrostatic attraction electrode are mounted, a focus ring which surrounds the placing table wherein the focus ring is a continuous ring or is divided into two or more portions, and a lift pin which is movable in an up-down direction and raises the entirety of or at least a part of the focus ring from the base part.

Abstract: A cathode material for a lithium-ion secondary battery of the present invention includes central particles represented by LixAyMzPO4 and a carbonaceous film that coats surfaces of the central particles, an average value of R values (I1580/I1360), which are ratios of a peak intensity (I1580) of a spectrum at a frequency band of 1,580±50 cm?1 to a peak intensity (I1360) of the spectrum at a frequency band of 1,360±50 cm?1 in a Raman spectrum analysis, measured at five points is 0.80 or more and 1.10 or less, and a standard deviation of the R values measured at five points is 0.010 or less.

Abstract: A cathode material for a lithium-ion secondary battery which is made of agglomerated secondary particles formed by agglomeration of a plurality of primary particles of electrode active material particles made of a transition metal lithium phosphate compound having an olivine structure that is coated with a carbonaceous material, in which an arithmetic average roughness Ra of agglomerated secondary particle surfaces observed using a three-dimensional scanning electron microscope is 15 nm or more and 25 nm or less.

Abstract: An optical device includes: an electro-optical element; a connector for input and output of an electric signal; a relay substrate electrically connecting the connector and the optical element; a pair of support parts supporting the relay substrate; and a housing accommodating the optical element, the relay substrate, and the pair of support parts, in which the optical element includes a substrate having an optical waveguide formed therein, and a modulation electrode formed on a surface of the substrate, the relay substrate includes a dielectric substrate, and a signal electrode and a ground electrode provided on one principal surface of the dielectric substrate, the signal electrode and the ground electrode are electrically connected to the modulation electrode and the connector, the support parts clamps the relay substrate, and an air gap is formed between the other principal surface of the relay substrate and an inner bottom surface of the housing.

Abstract: A cathode material for a lithium-ion secondary battery which is made of agglomerated secondary particles formed by agglomeration of a plurality of primary particles of electrode active material particles made of a transition metal lithium phosphate compound having an olivine structure that is coated with a carbonaceous material, in which an arithmetic average roughness Ra of agglomerated secondary particle surfaces observed using a three-dimensional scanning electron microscope is 3 nm or more and less than 15 nm.

Abstract: In a waveguide-type optical element, broaderband operation becomes possible. The waveguide-type optical element includes optical waveguides (110 and 112) formed on a substrate (100) having an electro-optic effect and a control electrode for controlling an optical wave that is transmitted through the optical waveguide, the control electrode comprises a central electrode (104) and ground electrodes (106 and 108), the central electrode being formed along the optical waveguide, and the ground electrodes being formed so as to put the central electrode therebetween in a surface direction of the substrate at a predetermined distance from the central electrode, and the central electrode or the ground electrodes have multiple pairs of facets, each comprising two facets facing each other, along a transmission direction of high-frequency signals that are transmitted through the central electrode and the ground electrodes.

Abstract: An optical device includes: an electro-optical element; a connector for input and output of an electric signal; a relay substrate electrically connecting the connector and the optical element; a pair of support parts supporting the relay substrate; and a housing accommodating the optical element, the relay substrate, and the pair of support parts, in which the optical element includes a substrate having an optical waveguide formed therein, and a modulation electrode formed on a surface of the substrate, the relay substrate includes a dielectric substrate, and a signal electrode and a ground electrode provided on one principal surface of the dielectric substrate, the signal electrode and the ground electrode are electrically connected to the modulation electrode and the connector, the support parts clamps the relay substrate, and an air gap is formed between the other principal surface of the relay substrate and an inner bottom surface of the housing.

Abstract: An optical device includes a connection pad, which is connected to a conductor pattern on the circuit substrate, at one edge. The connection pad includes one ground pad, and two or more signal pads between which the ground pad is interposed from its both sides. The ground pad includes a concave portion including an opening at the edge. The circuit substrate is provided with a metal columnar member in the conductor pattern to which the ground pad is connected. The conductor pattern and the connection pad are fixed to each other with solder in a state in which the columnar member is fitted into the concave portion. Solder, which gradually rises from the ground pattern to a lateral surface of the columnar member, is formed between the columnar member and the ground pattern that is formed in the flexible printed circuit.

Abstract: Modulation electrodes, bias electrodes, and bias electrodes are disposed in this order in a light wave-travelling direction in an optical modulation region modulating light having a wavelength. On the other hand, in an optical modulation region modulating light having a wavelength, the bias electrodes, the bias electrodes, and the modulation electrodes are disposed in this order in the light wave-travelling direction. That is, an order of the modulation electrodes and the bias electrodes in a longitudinal direction of a substrate is changed for each of the wavelengths.

Abstract: A cathode material for a lithium-ion secondary battery includes a cathode material A which includes central particles of a cathode active material represented by LixAyMzPO4 and a carbonaceous film with which surfaces of the central particles are coated and a cathode material B which is represented by LixAyMzPO4 and is made of primary particles of a cathode active material having an olivine structure.

Abstract: An electrode material includes an inorganic particle and a carbonaceous film coating a surface of the inorganic particle, in which an amount of carbon is 0.8 to 2.5% by mass, and volume of micropores in a micropore diameter range of 2 to 200 nm is 3×10?2 to 3×10?1 cm3/g. A method for manufacturing an electrode material includes a step of immersing the inorganic particle in an aqueous solution, a step of producing a slurry including the inorganic particle immersed in an aqueous solution, a carbonaceous film precursor, and water, a step of producing a dried substance of the slurry, and a step of calcinating the dried substance in a non-oxidative atmosphere, in which an amount of the carbonaceous film precursor blended into the inorganic particle is 1.0 to 5.0 parts by mass. A lithium-ion secondary battery includes a cathode that is the electrode; an anode; and a non-aqueous electrolyte.

Abstract: An electrode material for a lithium-ion secondary battery includes an electrode active material made of a transition metal lithium phosphate compound having an olivine structure and a carbonaceous film coating the electrode active material, the specific surface area of the electrode active material is 10 m2/g to 25 m2/g, the average particle diameter of spherical secondary particles formed by granulating the primary particles of the electrode active material is 0.5 ?m to 15 ?m, and, regarding the content of spherical secondary particles having a circularity of, measured using a flow-type particle image analyzer, of 0.90 to 0.95, the proportion of the number of the spherical secondary particles in the total number of all of single particles and spherical secondary particles present during the measurement of the degree of circularity is 18% or more. In a lithium-ion secondary battery, a cathode includes a cathode mixture layer formed using the electrode material.

Abstract: Provided is an electrostatic chucking device having high heat resistance. The electrostatic chucking device of the present invention includes a first ceramic plate which includes a first surface on which a substrate is able to be placed and a second surface on the opposite side thereof, and in which an internal electrode for electrostatic adsorption is embedded; a heating member fixed to the second surface; a second ceramic plate adhered to the first ceramic plate and the heating member via a first adhesive layer; and a cooling base portion adhered to the second ceramic plate via a second adhesive layer and cools at least the second ceramic plate. The first adhesive layer has a higher heat resistance than the second adhesive layer. The second adhesive layer has a smaller Young's modulus than the first adhesive layer.

Abstract: Provided is an optical modulator in which even in a case where an optical waveguide and a control electrode are highly integrated, a distortion due to stress acting on the optical waveguide from lead-out wiring of a signal electrode is mitigated and occurrence of a temperature drift or the like is suppressed.