Abstract: According to one aspect of the present invention, there is provided a curable resin composition including at least: a polysiloxane compound having, in a molecule thereof, at least two functional groups selected from the group consisting of silanol groups and alkoxysilyl groups as a component (A-1); and silica whose extract water has a pH of 6.1 or lower at 25° C. as a component (B), wherein the amount of the component (B) relative to the total amount of the components (A-1) and (B) is in a range of 70 to 97 mass %. This curable resin composition is able to, even when formed into various shapes and sizes, prevent foaming during curing and thus is suitable as an encapsulant material for a semiconductor element.

Abstract: An optical communication fiber includes: a fiber body having a tip surface; and a light absorption layer provided to the tip surface of the fiber body, and configured to reduce light transmittance of communication light.

Abstract: An optical module includes: a substrate provided with a through hole for inserting an optical fiber from a second principal surface side of the substrate; an optical device provided on a first principal surface side of the substrate; a first electrode provided in the substrate for connecting an electric fiber from the second principal surface side; a second electrode formed on the first principal surface side of the substrate for connecting to the optical device; and a third electrode provided on a side surface of the substrate and electrically connected to the second electrode.

Abstract: A welding inspection method has steps of: generating transmission laser light for generating an ultrasonic wave and transmitting the transmission laser light to an object to be inspected during or after welding operation for irradiation; generating reception laser light for detecting an ultrasonic wave and transmitting the reception laser light to the object to be inspected for irradiation; collecting laser light scattered and reflected at surface of the object to be inspected; performing interference measurement of the laser light and obtaining an ultrasonic signal; and analyzing the ultrasonic signal obtained by the interference measurement. At least one of the transmission laser light generated in the transmission laser light irradiation step and the reception laser light generated in the reception laser light irradiation step is irradiated onto a welded metal part or a groove side surface.

Abstract: Disclosed is a curable composition including a silicone (A) of a specific structure and a composition containing Si—OH group and Si—H group, a silicone (B) of a specific structure and a composition containing Si—OH group and Si—CH?CH2 group, and a hydrosilylation catalyst of a catalytic quantity containing at least one metal compound selected from the group consisting of platinum compounds, palladium compounds, and rhodium compounds. In this curable composition, as kind of each silicone and the content of Si—OH group are adjusted, in curing the silicone, foaming in a cured product can be inhibited by inhibiting a dehydration condensation reaction between Si—OH groups, as compared with a hydrosilylation reaction which is a reaction of Si—CH?CH2 group and Si—H group. Furthermore, an excellent adhesion to a base body such as semiconductor substrate can be given when making a cured film.

Abstract: The present invention describes branched and functionalized siloxanes and methods for making such compounds. The compounds have a variety of uses. One preferred application is as novel planarizing material for lithography, in which case functionalized branched siloxane, such as an epoxy-modified branched siloxane is particularly useful.

Abstract: The present invention describes branched and functionalized siloxanes and methods for making such compounds. The compounds have a variety of uses. One preferred application is as novel planarizing material for lithography, in which case functionalized branched siloxane, such as an epoxy-modified branched siloxane is particularly useful.

Abstract: An OPU frame generating device includes a frequency setting unit that sets a frequency corresponding to a bit rate of data which can be stored in a payload area, a parameter calculating unit that calculates a parameter Cm indicating an integer part of the amount of data included in the payload area using the set frequency, a data inserting unit that outputs a timing signal determined by the parameter Cm and inserts data at a position determined by the parameter Cm in the payload area, a data generating unit that generates data in synchronization with the timing signal, and a frame generating unit that generates an OPU frame having the payload area into which the data is inserted.

Abstract: [Problem] Diamine and carboxylic dianhydride for polymerizing a hexafluoroisopropylidene group-containing polyimide are limited in chemical structure when developed into a polyimide membrane, so that it is difficult to design a chemical structure with consideration paid to the strength and separation performance of a gas separation membrane. A gas separation membrane easily soluble in an organic solvent, excellent in formability so as to be readily usable for a gas separation membrane, and excellent in gas separation performance is obtained. [Solution] A gas separation membrane, including: a polyimide that contains a repeating unit represented by general formula (1). [In the formula (1), R1 is a divalent organic group and R2 is a tetravalent organic group, R1 containing a 2-hydroxy-1,1,1,3,3,3-hexafluoroisopropyl group (—C(CF3)2OH)].

Abstract: There is provided an optical-electrical hybrid module including a substrate on which a plurality of optical communication modules are arranged, the plurality of optical communication modules transmitting or receiving an optical signal through an optical fiber cable and performing conversion between the optical signal and an electrical signal. A shield case covering the optical communication modules includes a surface inclined in a direction away from a position in which the optical fiber cable is mounted to each optical communication module.

Abstract: An optical fiber cable processing device includes a transport mechanism which transports a case that accommodates an optical fiber cable and in which plural work stations are set along a transport path, and a processing mechanism that performs each of desired operations on the optical fiber cable, in which any one of the plural work stations is a mounting station in which a work mounting mechanism mounts a work on a tip of the optical fiber cable, a drawing mechanism that draws out the optical fiber cable and a correction mechanism that corrects a bending tendency of the optical fiber cable are disposed in the work stations on an upstream side of the mounting station, and the transport mechanism transports the case to the mounting station and mounts the work on the tip of the optical fiber cable in a state where the optical fiber cable is drawn out.

Abstract: There is provided an optical-electrical hybrid module including a substrate on which a plurality of optical communication modules are arranged, the plurality of optical communication modules transmitting or receiving an optical signal through an optical fiber cable and performing conversion between the optical signal and an electrical signal. A shield case covering the optical communication modules includes a surface inclined in a direction away from a position in which the optical fiber cable is mounted to each optical communication module.

Abstract: An optical communication fiber includes: a fiber body having a tip surface; and a light absorption layer provided to the tip surface of the fiber body, and configured to reduce light transmittance of communication light.

Abstract: An imprint lithography release agent having general formula (1): where R1 represents H or CH3, n is an integer from 1 to 5, and m is an integer from 1 to 40. Fluorinated silazanes of general formula (1) can be used to form a release layer on an imprint lithography template, added to an imprint lithography resist, or both.

Abstract: There is provided an ion discharge device including: a housing (2) to which a first outlet port (13) and a second outlet port (23) are open; a positive ion generation portion (31) which generates a positive ion; a negative ion generation portion (32) which generates a negative ion; a first blower duct (11) in which the positive ion generation portion (31) is arranged and which is formed with a dielectric; and a second blower duct (21) in which the negative ion generation portion (32) is arranged and which is formed with a dielectric, where the positive ion is discharged through the first outlet port (13), the negative ion is discharged through the second outlet port (23) and the first blower duct (11) and the second blower duct (21) are grounded.

Abstract: A composition provided to contain: an alkoxysilane condensate obtained by the condensation of alkoxysilane A represented by general formula (1): (CH3)Si(OR1)3 (In the general formula (1), R1 mutually independently represents methyl group or ethyl group.), alkoxysilane B represented by general formula (2): (Ph)Si(OR1)3 (In the general formula (2), R1 mutually independently represents methyl group or ethyl group.), and alkoxysilane C represented by general formula (3): (CH3)2Si(OR1)2 (In the general formula (3), R1 mutually independently represents methyl group or ethyl group.) at an A:B:C mole ratio within the range of 30-70:10-50:20-60; and a polyether-modified polydimethylsiloxane.

Abstract: [Problem] Diamine and carboxylic dianhydride for polymerizing a hexafluoroisopropylidene group-containing polyimide are limited in chemical structure when developed into a polyimide membrane, so that it is difficult to design a chemical structure with consideration paid to the strength and separation performance of a gas separation membrane. A gas separation membrane easily soluble in an organic solvent, excellent in formability so as to be readily usable for a gas separation membrane, and excellent in gas separation performance is obtained. [Solution] A gas separation membrane, including: a polyimide that contains a repeating unit represented by general formula (1). [In the formula (1), R1 is a divalent organic group and R2 is a tetravalent organic group, R1 containing a 2-hydroxy-1,1,1,3,3,3-hexafluoroisopropyl group (—C(CF3)2OH).

Abstract: A cleaning apparatus includes one set of a supply roll supplying a strip-shaped cleaning sheet and a collection roll collecting the cleaning sheet supplied from the supply roll and a cleaned material is cleaned using a first cleaning surface formed on one surface of one cleaning sheet and a second cleaning surface formed on the other surface. First to eighth guide rolls are provided to guide the cleaning sheet to make the cleaning sheet pass through one side and the other side of an optical fiber. The first to eighth guide rolls guide the cleaning sheet such that the first cleaning surface of the cleaning sheet positioned at one side and the second cleaning surface of the cleaning sheet positioned at the other side face each other with the optical fiber therebetween. As a result, the cleaned material can be cleaned using both sides of the cleaning sheet.

Abstract: An optical fiber cable processing device includes a transport mechanism which transports a case that accommodates an optical fiber cable and in which plural work stations are set along a transport path, and a processing mechanism that performs each of desired operations on the optical fiber cable, in which any one of the plural work stations is a mounting station in which a work mounting mechanism mounts a work on a tip of the optical fiber cable, a drawing mechanism that draws out the optical fiber cable and a correction mechanism that corrects a bending tendency of the optical fiber cable are disposed in the work stations on an upstream side of the mounting station, and the transport mechanism transports the case to the mounting station and mounts the work on the tip of the optical fiber cable in a state where the optical fiber cable is drawn out.

Abstract: An optical fiber cable processing apparatus includes a rotation table (conveyance section) which conveys a case that houses an optical fiber cable obtained by coating an optical fiber, and to which a plurality of work stations is set. The rotation table includes a case holding part, and the case holding part includes a cable holding section that holds the optical fiber cable. Further, a pulling station at an upstream side includes a pulling section that pulls out the optical fiber cable from the case by a predetermined length and causes the cable holding section to hold the optical fiber cable, and the work stations at a downstream side perform necessary work with respect to the optical fiber cable held by the cable holding section. Processing of the optical fiber cable in each work station can be easily performed.