A light source module including a light guide plate, a light-emitting assembly and an optical film is provided. The light guide plate has a first surface, a second surface opposite to the first surface, a first side surface, a second side surface opposite to the first side surface, and a light incident surface connecting the first surface, the second surface, the first side surface and the second side surface. The light-emitting assembly is disposed beside the light incident surface and is adapted to provide a light beam toward the light incident surface. The optical film is disposed on the second surface. The optical film has a light-emitting surface parallel to the second surface and away from the light guide plate. The light-emitting surface includes a first edge region adjacent to the first side surface, a second edge region adjacent to the second side surface, and a central region.

A light guide plate includes: a light guide plate body having two light-exit surfaces that are opposite and parallel, and at least one light-incident surface that intersects the two light-exit surfaces; and a mounting portion located on a non-light-incident side of the light guide plate body. The mounting portion and the light guide plate body are an integrated structure, and a portion of the mounting portion located on a light-exit side of each light-exit surface of the two light-exit surfaces is configured to mount an optical film group and a display panel

A display device including a plate, a first display module, a second display module, a first frame and a second frame is provided. The plate has a first surface and a second surface opposite to each other. The first display module and the second display module are disposed on the first surface and the second surface of the plate respectively. A display direction of the first display module and a display direction of the second display module are opposite to each other. The first frame is disposed on the first surface of the plate and surrounds the first display module. The first frame is for carrying the first display module. The second frame is disposed on the second surface of the plate and surrounds the second display module. The second frame is for carrying the second display module. The plate is clamped by the first frame and the second frame.

A surface lighting module may include: a light source configured to emit light; a main reflection part configured to reflect light emitted from the light source; a light guiding part that is provided at an upper portion of the main reflection part and spreads light reflected from the main reflection part to have a surface shape; and a lateral reflection part that is attached to a lateral surface of the light guiding part and reflects light leaking to the lateral surface of the light guiding part.

A lighting device (10) having a base housing (12) to receive one or more batteries therein to power a light source located in a light housing (14). The light housing (14) being pivotally attached to the base housing (12) at pivot points on both sides of the base housing (12), wherein a handle (24) is provided which extends along the axis of rotation (13) between the pivot points.

A display device includes a light source module, a first light modulation module, a first polarizer layer, and a first color modulation layer. The light source module generates a first color light that is polarized to the first light modulation module, wherein the first light modulation module selectively modulates the polarization direction of the first color light. The first polarizer layer then receives the first color light and selectively blocks, partially blocks, or does not block the first color light from passing through. The first color modulation layer receives the first color light and generates a second color light.

A lighting fixture lighting fixture with segmented emission employing a a sheet of an optically transmissive material having a first broad-area surface configured for light output, an opposing second broad-area surface extending parallel to the first broad-area surface and configured for light output, a first edge configured for light input, and an opposing second edge. The lighting fixture further employs a series of compact solid-state light sources optically coupled at least to the first edge, a plurality of patterned light extraction areas distributed over an area of the rectangular sheet and separated from one another and from the first and second edges by separation areas, and a housing encasing the light sources and one or more edges of the rectangular sheet. A width of the separation areas may be less than a length or width dimension of the patterned light extraction areas.

Display devices include waveguides with metasurfaces as in-coupling and/or out-coupling optical elements. The metasurfaces may be formed on a surface of the waveguide and may include a plurality or an array of sub-wavelength-scale (e.g., nanometer-scale) protrusions. Individual protrusions may include horizontal and/or vertical layers of different materials which may have different refractive indices, allowing for enhanced manipulation of light redirecting properties of the metasurface. Some configurations and combinations of materials may advantageously allow for broadband metasurfaces. Manufacturing methods described herein provide for vertical and/or horizontal layers of different materials in a desired configuration or profile.

A luminaire can comprise at a light source, a lightguide, and a reflective surface. The lightguide can comprise two major surfaces, for example two faces of a panel of optical material. The light source can couple light into the lightguide through an edge of the lightguide. The coupled light can exit the lightguide through the major faces of the lightguide. The reflective surface can be oriented to receive and redirect the light emitted from the lightguide. Via this redirection, the luminaire can emit illumination in direction that is different from the light source's emissions. For example, the light source can emit light upward and into the lightguide, the lightguide can emit and distribute that light outward, and the reflective surface can redirect the light downward.

In various embodiments, a light emitting device is provided comprising a plurality of first solid state light sources for emitting first light with a first spectral distribution, and a first light guide comprising a first light input surface, a first end surface extending in an angle with respect to each other and at least one first further surface extending parallel to the first light input surface. The first light guide receiving the first light at the first light input surface, and guiding a part of the first light to the first end surface. The light emitting device further comprises one first optical element, for shaping light that is coupled out of the first light guide through a part of the at least one first further surface such as to provide a first shaped light, and at least one second optical element on the first end surface.