Abstract: A light-emitting device includes a light-emitting stack and a distributed Bragg reflection structure formed on one side light-emitting stack.

Abstract: A light-emitting device includes a substrate having a first surface and a second surface opposite to the first surface; a light-emitting stack formed on the first surface; and a distributed Bragg reflection structure formed on the second surface, wherein the distributed Bragg reflection structure includes a first film stack and a second film stack; wherein the first film stack includes a plurality of first dielectric-layer pairs consecutively arranged, the second film stack includes a plurality of second dielectric-layer pairs consecutively arranged, each of the first dielectric-layer pairs and each of the second dielectric-layer pairs respectively includes a first dielectric layer having an optical thickness and a second dielectric layer having an optical thickness; wherein the second dielectric layer has a refractive index higher than that of the first dielectric layer; wherein in each of the first dielectric-layer pairs of the first film stack, the optical thickness of the first dielectric layer to the opt

Abstract: A light-emitting device includes a substrate having a first surface and a second surface opposite to the first surface; a light-emitting stack formed on the first surface; and a distributed Bragg reflection structure formed on the second surface, wherein the distributed Bragg reflection structure includes a first film stack and a second film stack; wherein the first film stack includes a plurality of first dielectric-layer pairs consecutively arranged, the second film stack includes a plurality of second dielectric-layer pairs consecutively arranged, each of the first dielectric-layer pairs and each of the second dielectric-layer pairs respectively includes a first dielectric layer having an optical thickness and a second dielectric layer having an optical thickness; wherein the second dielectric layer has a refractive index higher than that of the first dielectric layer; wherein in each of the first dielectric-layer pairs of the first film stack, the optical thickness of the first dielectric layer to the opt

Abstract: A light-emitting device includes a substrate, having a first surface and second surface opposite to the first surface; a light-emitting stack, formed on the first surface of the substrate, the light-emitting stack including a first semiconductor layer, an active layer and a second semiconductor layer, wherein the active layer is formed between the first conductive semiconductor layer and the second conductive semiconductor layer; and a distributed Bragg reflection structure (DBR), formed on the second surface of the substrate, including a plurality of dielectric-layer pair formed sequentially on the second surface, wherein each of the dielectric-layer pairs includes respectively a first dielectric layer having a first optical thickness and a second dielectric layer having a second optical thickness, and wherein from the second surface, the first dielectric layer of each of the dielectric-layer pairs is thicker than the first dielectric layer of the adjacent previous dielectric-layer pair.

Abstract: A light-emitting device, including: a semiconductor stack generating a first light; and a filter formed on the stack, including a first surface facing the stack and a second surface opposite to the first surface. The filter includes pairs of layers with different refractive indexes alternately stacked, and a portion of the first light is transmitted by the filter. The light emitting device emits a second light including the portion of the first light, and the second light includes a first directional part with a first FWHM and a second directional part with a second FWHM. The first directional part has a first angle with a normal direction of the second surface in a range of 45-90 degrees, the second directional part has a second angle with the normal direction of the second surface in a range of 0-30 degrees, and the second FWHM is smaller than the first FWHM.

Abstract: A light-emitting device comprises a semiconductor stack emitting a light with a peak wavelength ?; and a light field adjustment layer formed on the semiconductor stack, wherein the light field adjustment layer comprises a plurality of first layers and a plurality of second layers alternately stacked on top of each other, the plurality of first layers each comprises a first optical thickness, and the plurality of second layers each comprises a second optical thickness.

Abstract: A light-emitting device includes a substrate, having a first surface and second surface opposite to the first surface; a light-emitting stack, formed on the first surface of the substrate, the light-emitting stack including a first semiconductor layer, an active layer and a second semiconductor layer, wherein the active layer is formed between the first conductive semiconductor layer and the second conductive semiconductor layer; and a distributed Bragg reflection structure (DBR), formed on the second surface of the substrate, including a plurality of dielectric-layer pair formed sequentially on the second surface, wherein each of the dielectric-layer pairs includes respectively a first dielectric layer having a first optical thickness and a second dielectric layer having a second optical thickness, and wherein from the second surface, the first dielectric layer of each of the dielectric-layer pairs is thicker than the first dielectric layer of the adjacent previous dielectric-layer pair.