Light collecting and emitting apparatus, method, and applications

We claim: 1. A light guide apparatus, comprising: a light guide component including a light guide layer section having an index of refraction n 1 and an injection layer section having an index of refraction n 2 disposed axially adjacent the light guide layer section, wherein n 2 is greater than n 1 by an amount Δn greater than zero. 2. The light guide apparatus of claim 1 , wherein 0.02≦Δn≦0.03. 3. The light guide apparatus of claim 1 , wherein n 2 ≈n 1 /cos θ 2 , where θ 2 is the maximum angle between an edge ray of a ray bundle incident on the injection layer section and an optical propagation axis of the ray bundle incident on the injection layer section. 4. The light guide apparatus of claim 1 , wherein the light guide layer section includes an axial gradient index Δn 1 . 5. The light guide apparatus of claim 1 , wherein the light guide layer section and the injection layer section are separate, co joined layers consisting of a light guide layer and an injection layer. 6. The light guide apparatus of claim 5 , wherein 0.02≦Δn≦0.03. 7. The light guide apparatus of claim 5 , wherein n 2 ≈n 1 /cos θ 2 , where θ 2 is the maximum half-angle between an edge ray of a ray bundle incident on the injection layer and a horizontal plane of the injection layer. 8. The light guide apparatus of claim 5 , wherein the light guide layer includes an axial gradient index Δn 1 . 9. The light guide apparatus of claim 8 , wherein the axial gradient index Δn 1 decreases in the axial direction from at least one of a top and a bottom axial surface of the light guide layer adjacent the injection layer towards a center region of the light guide layer. 10. The light guide apparatus of claim 9 , wherein the axial gradient index Δn 1 does not extend for more than 20% of the thickness of the light guide layer. 11. The light guide apparatus of claim 1 , further comprising a TIR layer having an index of refraction n 3 , wherein n 3 is less than n 1 , disposed immediately axially adjacent the light guide layer section that is not adjacent the injection layer section. 12. The light guide apparatus of claim 1 , further comprising a lens array disposed adjacent the light guide component. 13. The light guide apparatus of claim 5 , wherein the light guide layer is one of a glass and a plastic material, and the injection layer is one of a glass, a thermoplastic, and a silicone material, that can transmit solar spectrum wavelengths. 14. The light guide apparatus of claim 5 , wherein the injection layer includes at least a first plurality of injection elements that are stepped (staggered) in a z-axis-light propagation direction in a respective first plane. 15. The light guide apparatus of claim 14 , further comprising at least a second plurality of light injection elements that are stepped in the z-axis-light propagation direction in a respective at least second plane. 16. A solar light guide, comprising a guide layer; and an injection facet layer interfaced thereto, wherein at least one of the guide layer and the injection layer has an axial gradient index (a-GRIN) of refraction, further wherein the guide layer has a higher refractive index than a refractive index of the injection layer.