Embedding LEDs with waveguides

What is claimed is: 1. An optical coupling arrangement for an optical communication system, comprising: a microLED on a substrate, the microLED having a top surface and a bottom surface with an active layer therebetween; a waveguide on the substrate, the microLED being at least partially within the waveguide; a reflector on at least a portion of the waveguide, the reflector positioned to reflect light from the microLED down an axis of the waveguide; and a lens within the waveguide and in an optical path between the microLED and the reflector, the lens separated by one focal length from the active layer of the microLED. 2. The optical coupling arrangement of claim 1 , wherein the active layer of the microLED is within the waveguide. 3. The optical coupling arrangement of claim 1 , wherein the bottom surface of the reflector has a bottom reflector. 4. The optical coupling arrangement of claim 1 , wherein the lens is a convex lens. 5. The optical coupling arrangement of claim 4 , wherein the lens is of a material with a higher index of refraction than material of the waveguide. 6. The optical coupling arrangement of claim 1 , wherein the lens is a concave lens. 7. The optical coupling arrangement of claim 6 , wherein the lens is of a material with a lower index of refraction than material of the waveguide. 8. The optical coupling arrangement of claim 1 , wherein the reflector forms a 45-degree turning mirror. 9. The optical coupling arrangement of claim 1 , wherein the microLED includes a curved surface. 10. The optical coupling arrangement of claim 1 , wherein the active layer of the microLED is separated from side edges of the microLED. 11. The optical coupling arrangement of claim 10 , wherein the microLED includes a curved surface. 12. The optical coupling arrangement of claim 1 , further comprising an electrical connection from a top of the waveguide, through a via in the waveguide, to a conductive contact on the top surface of the microLED. 13. The optical coupling arrangement of claim 1 , wherein the top surface of the microLED is curved with a radius of curvature centered in a center of the active region of the microLED. 14. The optical coupling arrangement of claim 1 , wherein side edges of the microLED are angled to make the microLED pyramid-shaped.