A high resolution fluorescence imaging device includes a light guide plate having a fluid channel which allows a solution containing a fluorescent sample to pass; a light source disposed on a side of the light guide plate to irradiate light inward the light guide plate; an image sensor disposed under the light guide plate;

and a thin film interposed between the light guide plate and the image sensor, wherein the thin film has a first surface having a plurality of pillars and a second surface, the pillars separate the light guide plate and the image sensor apart from each other, and the second surface is bonded to the light guide plate. According to an embodiment, since the light guide plate acts in place of a filter element, it is possible to manufacture in ultrasmall size and achieve multiple fluorescence imaging without replacing a filter.

A high resolution fluorescence imaging device includes a light guide plate having a fluid channel which allows a solution containing a fluorescent sample to pass; a light source disposed on a side of the light guide plate to irradiate light inward the light guide plate; an image sensor disposed under the light guide plate;

and a thin film interposed between the light guide plate and the image sensor, wherein the thin film has a first surface having a plurality of pillars and a second surface, the pillars separate the light guide plate and the image sensor apart from each other, and the second surface is bonded to the light guide plate. According to an embodiment, since the light guide plate acts in place of a filter element, it is possible to manufacture in ultrasmall size and achieve multiple fluorescence imaging without replacing a filter.

The present disclosure provides a keycap, including: a light-guiding microstructure layer made of a first material, the light-guiding microstructure layer including a base layer and a plurality of microstructures disposed on a lower surface of the base layer; and a light-transmitting layer disposed over the light-guiding microstructure layer and in contact with the base layer, the light-transmitting layer being made of a second material different from the first material. The present disclosure further provides a method of manufacturing the above-mentioned keycap and a key structure including the above-mentioned keycap.

Provided is an optical glass plate having a high refractive index and excellent visible light transmittance. An optical glass plate characterized by containing as a glass composition at least one selected from Nb.sub.2O.sub.5, La.sub.2O.sub.3, and Gd.sub.2O.sub.3, the optical glass plate having a refractive index (nd) of 1.90 to 2.30 and an internal transmittance τ.sub.450 of 75% or greater for a thickness of 10 mm at a wavelength of 450 nm.

A method for manufacturing a plastic substrate having excellent thickness uniformity, and a plastic substrate having excellent thickness uniformity manufactured thereby.

The present invention provides an apparatus for manufacturing a plastic optical fiber suitable for adjusting a plastic optical fiber to be uniform in size while inhibiting the entry of a metal that causes an increase in transmission loss of the plastic optical fiber. The apparatus for manufacturing a plastic optical fiber of the present invention is provided with an extruding device and a gear pump. The extruding device has a containing portion that contains a resin composition, and introduces a gas into the containing portion to extrude the resin composition from the containing portion by means of the gas. The gear pump adjusts a flow rate of the resin composition extruded from the extruding device.

The invention relates to a lighting and/or signaling device including an electroluminescent diode and a lightguide adapted to convey the light from the diode and also means for securing the diode relative to an end of the lightguide to ensure the position of an inlet face of the guide opposite the diode. The lightguide carries male securing means adapted to interact with female securing means carried by a plastics component carrying the electroluminescent diode. The plastics component further includes electric circuits produced directly on the plastics of this component in immediate proximity to the diode.

Provided are a polycarbonate resin composition for a thin optical component that has a high transmittance and a good hue, and a thin optical component. The polycarbonate resin composition for a thin optical component contains, per 100 mass parts of a polycarbonate resin (A), 0.1 to 4 mass parts of a polyalkylene glycol copolymer (B) having a linear alkylene ether unit (B1) given by general formula (I) and a branched alkylene ether unit (B2) selected from units given by general formulas (II-1) to (II-4), and 0.005 to 0.5 mass parts of a phosphorus stabilizer (C).

A semiconductor package and a manufacturing method thereof are provided. The semiconductor package includes a photonic die, an encapsulant and a wave guide structure. The photonic die includes: a substrate, having a wave guide pattern formed at front surface; and a dielectric layer, covering the front surface of the substrate, and having an opening overlapped with an end portion of the wave guide pattern. The encapsulant laterally encapsulates the photonic die. The wave guide structure lies on the encapsulant and the photonic die, and extends into the opening of the dielectric layer, to be optically coupled to the wave guide pattern.

A wearable device which is lighter, relatively safer at the time of breakage, and smaller than a wearable device having a lens substrate that is a glass substrate.