Abstract: The present invention provides a formulation for oral administration, comprising a triazine derivative having virus proliferation inhibitory action.

Abstract: An illumination apparatus irradiates first reference light having a first intensity distribution and second reference light having a second intensity distribution that has a complementary relation with the first intensity distribution. A photodetector measures reflected light from an object. A processing device executes a first correlation calculation using a first detection intensity based on the output of the photodetector in a state in which the first reference light is irradiated and the second intensity distribution, and executes a second correlation calculation using a second detection intensity based on the output of the photodetector in a state in which the second reference light is irradiated and the second intensity distribution.

Abstract: An illumination apparatus irradiates an object with a reference light having a random pattern to be switched for each illumination period TILM. A photodetector detects reflected light from the object. A processing device reconstructs a reconstructed image of the object based on the detection intensity based on the output of the photodetector and the light intensity distribution of the reference light. An interval period TINT in which the light intensity of the reference light is zero or the reference light has a uniform light intensity distribution is inserted between an irradiation period TILM and the next irradiation period TILM. With the upper limit of the sensing distance in the depth direction of the in-vehicle imaging apparatus as LMAX, and with the speed of light as c, the interval period TINT is designed to be equal to or larger than 2×LMAX/c.

Abstract: A translucent cover forms a part of an outer surface of the vehicle and covers a light emitting element and a light receiving element. A processor calculates a distance to an object that generated reflected light based on a time period from time when detecting light is emitted from the light emitting element to time when the reflected light is incident on the light receiving element, at least after it is elapsed a time period from the time when the detecting light is emitted to time when reflected light generated by an inner surface of the translucent cover is incident on the light receiving element.

Abstract: The present invention provides a preparation that is minimally colored through irradiation with light by coating a preparation containing a compound represented by formula (I) or a pharmaceutically acceptable salt thereof, or a crystal thereof with a light stabilizing substance and a polymer, particularly with one or more of titanium oxide and talc used as the light stabilizing substance and hypromellose used as the polymer.

Abstract: Provided is a plant growth apparatus including: an apparatus main body having a growth space configured to grow a plant therein; an illumination device configured to irradiate light to the plant; and air conditioning device configured to control the internal air of the growth space. The illumination device includes a plurality of light source units provided separately from the apparatus main body. The air conditioning device includes a plurality of air conditioners provided separately from the apparatus main body. One of the plurality of light source units and/or one of the plurality of air conditioners is/are selected and connected to the apparatus main body.

Abstract: Provided is a plant growth apparatus including: an apparatus main body having a growth space configured to grow a plant therein; an illumination device configured to irradiate light to the plant; and air conditioning device configured to control the internal air of the growth space. The illumination device includes a plurality of light source units provided separately from the apparatus main body. The air conditioning device includes a plurality of air conditioners provided separately from the apparatus main body. One of the plurality of light source units and/or one of the plurality of air conditioners is/are selected and connected to the apparatus main body.

Abstract: An LED lamp has a lamp body, a base provided on one end of the lamp body, a light transmissive cover provided on an opposite side of the lamp body from the base, a light source substrate disposed inside the light transmissive cover, and at least one LED unit mounted on the light source substrate. The LED unit has an LED chip and a light transmissive encapsulant encapsulating the LED chip. The LED chip is mounted on the light source substrate. The encapsulant is molded such that the encapsulant is raised from the light source substrate. The LED unit radiates light from an entire surface of the encapsulant in an angular range including a region around a periphery of the LED unit.

Abstract: An LED lamp has a lamp body, a base provided on one end of the lamp body, a light transmissive cover provided on an opposite side of the lamp body from the base, a light source substrate disposed inside the light transmissive cover, and at least one LED unit mounted on the light source substrate. The LED unit has an LED chip and a light transmissive encapsulant encapsulating the LED chip. The LED chip is mounted on the light source substrate. The encapsulant is molded such that the encapsulant is raised from the light source substrate. The LED unit radiates light from an entire surface of the encapsulant in an angular range including a region around a periphery of the LED unit.

Abstract: To improve the reliability of an optical element and its manufacturing method. An optical element includes a substrate, a columnar section formed above the substrate and having an upper surface for light emission or incidence, a resin layer including a first section formed above the substrate and around the columnar section, and a second section formed at an end section of the upper surface of the columnar section, and an electrode that passes above the first and second sections, of the resin layer and is electrically connected to an end section of an exposed area in the upper surface of the columnar section.

Abstract: To improve the reliability of an optical element and its manufacturing method. An optical element includes a substrate, a columnar section formed above the substrate and having an upper surface for light emission or incidence, a resin layer including a first section formed above the substrate and around the columnar section, and a second section formed at an end section of the upper surface of the columnar section, and an electrode that passes above the first and second sections, of the resin layer and is electrically connected to an end section of an exposed area in the upper surface of the columnar section.

Abstract: A display groove is formed along a display pattern provided on a display panel, and a display element unit is arranged along the display groove as a light source to constitute a display device. The display element unit 2 has one or more LED's inserted into a unit case 21 having an elongated opening so that light is emitted over the width area and the length area of this lens 25 for providing an emitted state of a wide display pattern along a display groove in a small number of LED's 231 along the display pattern.