Abstract: An electrolyte sheet for solid oxide fuel batteries with mechanical strength characteristics is proposed. These characteristics may include a high and stable average value of strength, Weibull coefficient, and a high adhesion to an electrode formed on a surface thereof and hence inhibits the electrode from interfacial separation from the electrolyte sheet. The electrolyte sheet for solid oxide fuel batteries is characterized by having a plurality of concaves and/or convexes on at least one surface thereof, the concaves and convexes having base faces which are circular or elliptic or are a rounded polygon in which the vertexes have a curved shape with a curvature radius of 0.1 ?m or larger and/or the concaves and convexes having a three-dimensional shape which is semispherical or semiellipsoidal or is a polyhedron in which the vertexes and the edges have a curved cross-sectional shape having a curvature radius of 0.1 ?m or larger.

Abstract: An optical fiber includes a core (1a) having an oblong rectangular or square cross section and made of quartz, a cladding (2) surrounding the core (1a), having a circular outer cross-sectional shape, having a lower refractive index than the core (1a), and made of resin, and a support layer (3) surrounding the cladding (2) and made of quartz.

Abstract: An optical fiber structure (10) includes an optical fiber (11a), and a block-like chip (12) joined to the optical fiber (11a). The block-like chip (12) is tapered toward its fiber-joined end.

Abstract: An optical connector structure (C) includes: an optical fiber (100) having a laser beam entrance end to which a quartz chip (120) is integrally connected; a ferrule (200) into which a portion of the optical fiber (100) including the quartz chip (120) is inserted and which holds the portion of the optical fiber; and a receptacle (21) surrounding the ferrule (200), and including a large-diameter hole (21b) formed toward an opening and a small-diameter hole formed toward a back of the receptacle so as to be connected to the large-diameter hole. A front end portion (210) of the ferrule (200) is inserted into the small-diameter hole (21a) of the receptacle (21), and a back body portion (211) of the ferrule (200) is inserted into the large-diameter hole (21b) of the receptacle (21).

Abstract: A fixing structure of an exterior member to an optical fiber cable includes an optical fiber cable having a coating layer formed on an outer circumference of a bare optical fiber, and the exterior member has a through-hole through which the optical fiber cable can be inserted. The exterior member of the optical fiber cable has a light shielding member to cover an outer circumference of the optical fiber cable, the light shielding member is fixed at a part where the exterior member is externally mounted, and an inner surface of the through-hole of the exterior member is bonded to the light shielding member.

Abstract: An electrolyte sheet for solid oxide fuel batteries with mechanical strength characteristics is proposed. These characteristics may include a high and stable average value of strength, Weibull coefficient, and a high adhesion to an electrode formed on a surface thereof and hence inhibits the electrode from interfacial separation from the electrolyte sheet. The electrolyte sheet for solid oxide fuel batteries is characterized by having a plurality of concaves and/or convexes on at least one surface thereof, the concaves and convexes having base faces which are circular or elliptic or are a rounded polygon in which the vertexes have a curved shape with a curvature radius of 0.1 ?m or larger and/or the concaves and convexes having a three-dimensional shape which is semispherical or semiellipsoidal or is a polyhedron in which the vertexes and the edges have a curved cross-sectional shape having a curvature radius of 0.1 ?m or larger.

Abstract: An optical fiber includes a core (1a) having an oblong rectangular or square cross section and made of quartz, and a cladding (2) surrounding the core (1a), having a circular outer cross-sectional shape, and made of resin.

Abstract: A laser guide optical fiber (100) used for transmitting a laser beam includes an optical fiber body (110) including a core (111) and a clad (112), and a quartz chip (120) integrally provided at an end surface on the light entering side of the optical fiber body (110) and including an optical waveguide portion, where at least the optical waveguide portion of the quartz chip (120) is made of pure quartz. The quartz chip (120) includes a light entering surface subjected to surface fusion treatment.

Abstract: An optical fiber includes a core (1a) having an oblong rectangular or square cross section and made of quartz, a cladding (2) surrounding the core (1a), having a circular outer cross-sectional shape, having a lower refractive index than the core (1a), and made of resin, and a support layer (3) surrounding the cladding (2) and made of quartz.

Abstract: An optical connector structure (C) includes: an optical fiber (100) having a laser beam entrance end to which a quartz chip (120) is integrally connected; a ferrule (200) into which a portion of the optical fiber (100) including the quartz chip (120) is inserted and which holds the portion of the optical fiber; and a receptacle (21) surrounding the ferrule (200), and including a large-diameter hole (21b) formed toward an opening and a small-diameter hole formed toward a back of the receptacle so as to be connected to the large-diameter hole. A front end portion (210) of the ferrule (200) is inserted into the small-diameter hole (21a) of the receptacle (21), and a back body portion (211) of the ferrule (200) is inserted into the large-diameter hole (21b) of the receptacle (21).

Abstract: An optical fiber structure (10) includes an optical fiber (11a), and a block-like chip (12) joined to the optical fiber (11a). The block-like chip (12) is tapered toward its fiber-joined end.

Abstract: An optical fiber includes a core (1a) having an oblong rectangular or square cross section and made of quartz, and a cladding (2) surrounding the core (1a), having a circular outer cross-sectional shape, and made of resin.

Abstract: A laser guide optical fiber (100) used for transmitting a laser beam includes an optical fiber body (110) including a core (111) and a clad (112), and a quartz chip (120) integrally provided at an end surface on the light entering side of the optical fiber body (110) and including an optical waveguide portion, where at least the optical waveguide portion of the quartz chip (120) is made of pure quartz. The quartz chip (120) includes a light entering surface subjected to surface fusion treatment.

Abstract: A fixing structure of an exterior member to an optical fiber cable containing an optical fiber cable having a coating layer formed on an outer circumference of a bare optical fiber, and the exterior member having a through-hole through which the optical fiber cable can be inserted, wherein the exterior member of the optical fiber cable has a light shielding member to cover an outer circumference of the optical fiber cable, the light shielding member is fixed at a part where the exterior member is externally mounted, and an inner surface of the through-hole of the exterior member is bonded to the light shielding member.

Abstract: An optical fiber/glass tube fusion spliced structure includes an optical fiber made of glass and a glass tube through which the optical fiber is inserted and at least in part of the optical fiber/glass tube fusion spliced structure, an outer circumference portion of the optical fiber and an inner circumference portion of the glass tube are fusion spliced. Part of the fusion spliced portion located in one of the optical fiber and the glass tube is formed of a material having a lower fusion point than a fusion point of part of the fusion spliced portion located in the other.

Abstract: An optical fiber/glass tube fusion spliced structure includes an optical fiber made of glass and a glass tube through which the optical fiber is inserted and at least in part of the optical fiber/glass tube fusion spliced structure, an outer circumference portion of the optical fiber and an inner circumference portion of the glass tube are fusion spliced. Part of the fusion spliced portion located in one of the optical fiber and the glass tube is formed of a material having a lower fusion point than a fusion point of part of the fusion spliced portion located in the other.

Abstract: An optical connector 10 includes slide pins 16a and 16b, held for movement in a direction of an axis of the optical connector 10, and a proximity switch 21 whose conducting state can be switched in response to the movement of the slide pins. Only when the optical connector 10 is properly connected to an optical receptacle 11, the proximity switch 21 is turned into the conducting state.

Abstract: An optical connector 10 includes slide pins 16a and 16b, held for movement in a direction of an axis of the optical connector 10, and a proximity switch 21 whose conducting state can be switched in response to the movement of the slide pins. Only when the optical connector 10 is properly connected to an optical receptacle 11, the proximity switch 21 is turned into the conducting state.

Abstract: A multi-beam image recording apparatus changes a diameter of a laser beam using a beam diameter changing board, an order in which the line data is to be read from the memory unit, a rotational speed of a polygon mirror, and a clock frequency employed when the image data is read in units of pixels, in accordance with the specified resolution. Accordingly, the multi-beam image recording apparatus can switch between the resolutions without changing a distance between the centers of two laser beams emitted from an optical system. The resolution switching can be achieved with high accuracy at low costs.