A vehicle surface includes a set of retroreflectors configured to reflect, at least in part, incident hostile light towards a source of the incident hostile light.

A vehicle surface includes a set of retroreflectors configured to reflect, at least in part, incident hostile light towards a source of the incident hostile light.

Window glass having sun-facing daylight redirecting optical structures with an embedded surface diffuser patterned on them. The optical structures are generally linear and formed from a repeating unit cell. Each unit cell has a base, two or more peaks opposite the base, and at least one curved side between the base and the peaks. The other sides between the base and the peaks can be substantially straight, curved, or a series of facets approximating a curve.

Window glass having sun-facing daylight redirecting optical structures with an embedded surface diffuser patterned on them. The optical structures are generally linear and formed from a repeating unit cell. Each unit cell has a base, two or more peaks opposite the base, and at least one curved side between the base and the peaks. The other sides between the base and the peaks can be substantially straight, curved, or a series of facets approximating a curve.

The present disclosure relates to a method for determining a beam profile of a laser beam, which is positioned by a scanner device in a processing field. The method includes: arranging at least one retroreflector in the processing field for irradiating powder layers of the scanner device; detecting laser radiation reflected back into the scanner device while the laser beam is scanned over the retroreflector; and determining the beam profile of the laser beam by using the laser radiation detected during the scanning travel over the retroreflector.

The present disclosure relates to a method for determining a beam profile of a laser beam, which is positioned by a scanner device in a processing field. The method includes: arranging at least one retroreflector in the processing field for irradiating powder layers of the scanner device; detecting laser radiation reflected back into the scanner device while the laser beam is scanned over the retroreflector; and determining the beam profile of the laser beam by using the laser radiation detected during the scanning travel over the retroreflector.

Semi-retro-reflective total internal reflection-based image displays may be equipped with at least one dielectric layer. The at least one dielectric layer may be deposited on one or more of a front electrode layer, rear electrode layer or pixel walls. This may lead to displays with enhanced brightness, improved electrophoretic particle responsiveness, improved grayscale and chemical stability in the presence of an electrophoretic medium, and improved resistance to high electric fields and high temperatures. In one embodiment, a total internal reflection-based image display comprises a dielectric layer formed by one or more of methods molecular layer deposition, atomic layer deposition, chemical vapor deposition, plasma enhance chemical vapor deposition, spin coating or slot die coating. In another embodiment, a total internal reflection-based image display comprises at least one dielectric layer and at least one surface modification layer.

A retroreflector has an arrangement of triples, each having three side surfaces that stand essentially perpendicular on one another. The triples are disposed on a curved or domed surface. The geometry of the triple array is adapted to the curved surface, to even out the thresholds, and extend the side surfaces of a triple. The extensions of the side surfaces project into adjacent triples. Due to the extension projecting into adjacent triples, joints are formed there, which even out the uneven area. The joints can assume the form of a protrusion filled with material or a notch in which material is missing. A forming die produces the retroreflector and a method produces the forming die. The retroreflectors have geometries having full cube surfaces, in other words Full Cubes, for curved or domed surfaces or free-form surfaces.

A retroreflector has an arrangement of triples, each having three side surfaces that stand essentially perpendicular on one another. The triples are disposed on a curved or domed surface. The geometry of the triple array is adapted to the curved surface, to even out the thresholds, and extend the side surfaces of a triple. The extensions of the side surfaces project into adjacent triples. Due to the extension projecting into adjacent triples, joints are formed there, which even out the uneven area. The joints can assume the form of a protrusion filled with material or a notch in which material is missing. A forming die produces the retroreflector and a method produces the forming die. The retroreflectors have geometries having full cube surfaces, in other words Full Cubes, for curved or domed surfaces or free-form surfaces.

A light source device includes a light source, a wavelength conversion member, and a retroreflective optical member. The light source emits excitation light. The wavelength conversion member includes a first region irradiated with the excitation light and radiates, from the first region, converted light having a wavelength different from that of the excitation light. The retroreflective optical member reflects the converted light toward the first region. The first region is a region that is a part of the wavelength conversion member.