A beam splitter plate configured to dispose obliquely in a transmission path of an imaging beam of a camera and comprising a transmissive plate, and a beam splitter film supported on the transmissive plate and parallel to the transmissive plate, wherein the beam splitter film is configured to reflect visible light and transmit near-infrared light, or the beam splitter film is configured to reflect the near-infrared light and transmit the visible light, wherein a thickness of the transmissive plate satisfies that transmission path lengths of the visible light and the near-infrared light in the imaging beam in the transmissive plate are both less than a projection length of the beam splitter film on an optical axis of the imaging beam.

A method of optimizing the coupling to an optical fiber, including: generating a femtosecond laser pulse; directing a focus of the laser pulse to a longitudinal depth in the region beneath the endface of the optical fiber to generate microvoids; adjusting the intensity of the laser pulse at different depths, such that a refractive index profile is created in the region beneath the endface of the optical fiber.

Embodiments discussed herein refer to LiDAR systems that use refraction compensation to improve transmission efficiency of light energy through transmissive mediums such as covers. Refraction compensation can be achieved using a cover or an anti-reflective coating.

This eyeglass lens is outstanding in anti-crazing properties, impact resistance properties, and adhesion. The present invention comprises: a lens substrate; a primer layer disposed on the lens substrate; and at least one layer that is disposed on the primer layer and that is selected from the group consisting of a hard-coat layer and a reflection-preventing layer. The primer layer contains a polycarbonate-based polyurethane resin and inorganic oxide particles. The tensile strength of the polycarbonate-based polyurethane resin is over 40 N/mm.sup.2. The expansion rate of the polycarbonate-based polyurethane resin is at least 300%, and the inorganic oxide particle content is 10-40% by volume with respect to the total volume of the primer layer.

This eyeglass lens is outstanding in anti-crazing properties, impact resistance properties, and adhesion. The present invention comprises: a lens substrate; a primer layer disposed on the lens substrate; and at least one layer that is disposed on the primer layer and that is selected from the group consisting of a hard-coat layer and a reflection-preventing layer. The primer layer contains a polycarbonate-based polyurethane resin and inorganic oxide particles. The tensile strength of the polycarbonate-based polyurethane resin is over 40 N/mm.sup.2. The expansion rate of the polycarbonate-based polyurethane resin is at least 300%, and the inorganic oxide particle content is 10-40% by volume with respect to the total volume of the primer layer.

A metasurface optical component including a first substrate, a set of subwavelength structures for forming a metasurface optic and a layer, referred to as an encapsulation layer, that is substantially parallel to the surface of the first substrate, the encapsulation layer being spaced apart from the set of structures by a space referred to as the encapsulated space, the encapsulation layer and the encapsulated space together forming a multilayer antireflective coating in the given wavelength range.

A metasurface optical component including a first substrate, a set of subwavelength structures for forming a metasurface optic and a layer, referred to as an encapsulation layer, that is substantially parallel to the surface of the first substrate, the encapsulation layer being spaced apart from the set of structures by a space referred to as the encapsulated space, the encapsulation layer and the encapsulated space together forming a multilayer antireflective coating in the given wavelength range.

An optical film according to an embodiment includes a substrate 101, a surface member 102 provided on a front surface of the substrate 101, and an optical functional layer 103 provided on a back surface of the substrate 101. The optical functional layer 103 includes a low-refractive index layer 104 and a high-refractive index layer 105, and an interface between the low-refractive index layer 104 and the high-refractive index layer 105 has a recessed/protruding shape. The refractive index of the high-refractive index layer 105, the refractive index of the substrate 101, and the refractive index of the surface member 102 become smaller in this order.

An optical film according to an embodiment includes a substrate 101, a surface member 102 provided on a front surface of the substrate 101, and an optical functional layer 103 provided on a back surface of the substrate 101. The optical functional layer 103 includes a low-refractive index layer 104 and a high-refractive index layer 105, and an interface between the low-refractive index layer 104 and the high-refractive index layer 105 has a recessed/protruding shape. The refractive index of the high-refractive index layer 105, the refractive index of the substrate 101, and the refractive index of the surface member 102 become smaller in this order.

A black elastomer molded article according to the present technology is provided with an affixing surface to which an adherend having light transmission property is affixed in a removable manner, wherein the black elastomer molded article includes a thermoplastic elastomer, a black substance, and a softening agent and has an FP hardness of 85 or less, a reflectance (Ym value) of the affixing surface being 5.0% or less, a surface roughness (Ra) of the affixing surface being 1.0 μm or less, and an adhesive force (with respect to SUS) of the affixing surface being from 1.0 N/mm to 8.0 N/mm.