Method and system for managing light from a light emitting diode

What is claimed is: 1. An illumination system comprising: an optic comprising an inner surface that forms a cavity and an outer surface; and a light emitting diode that is oriented to emit light into the cavity and that has an optical axis, wherein the inner surface and the outer surface are asymmetrical with respect to the optical axis, wherein the inner surface comprises a refractive surface that is located on a first side of the optical axis, that bulges into the cavity, and that forms a beam within the optic, and wherein the outer surface comprises a total internally reflective surface that is located on the first side of the optical axis and that is positioned to receive the formed beam and to reflect the formed beam across the optical axis to a second side of the optical axis. 2. The illumination system of claim 1 , wherein the refractive surface comprises a lens. 3. The illumination system of claim 1 , wherein the refractive surface comprises a collimating lens. 4. The illumination system of claim 1 , wherein the refractive surface comprises a focusing element. 5. The illumination system of claim 1 , wherein the optic comprises a street side and a house side. 6. The illumination system of claim 1 , wherein the first side of the optical axis comprises a house side, and wherein the second side of the optical axis comprises a street side. 7. The illumination system of claim 1 , wherein an array of optics comprises the optic, wherein an array of light emitting diodes comprises the light emitting diode, and wherein the illumination system comprises a street luminaire. 8. An illumination system comprising: a light emitting diode having an optical axis; and a lens comprising: an inner surface that faces the light emitting diode, that is asymmetric with respect to the optical axis, and that comprises a convex refractive surface disposed on a side of the optical axis; and an outer surface that is asymmetric with respect to the optical axis and that comprises an internally reflective surface, the internally reflective surface disposed on the side of the optical axis in a position to receive a beam of light formed by the convex refractive surface and to reflect the received beam across the optical axis. 9. The illumination system of claim 8 , wherein the convex refractive surface comprises a lens. 10. The illumination system of claim 8 , wherein the convex refractive surface comprises a collimating lens. 11. The illumination system of claim 8 , wherein the convex refractive surface comprises a focusing element. 12. The illumination system of claim 8 , wherein the internally refractive surface comprises a totally internally reflective surface. 13. The illumination system of claim 8 , wherein the side of the optical axis comprises a house side. 14. The illumination system of claim 8 , wherein the lens comprises a house side and a street side, wherein an array of lenses comprises the lens, and wherein an array of light emitting diodes comprises the light emitting diode. 15. The illumination system of claim 8 , wherein the illumination system comprises a street luminaire. 16. A lens comprising: an inner surface forming a cavity sized to receive light from an LED source that has an optical axis; and an outer surface opposite the inner surface, wherein a cross section of the lens taken at the optical axis shows asymmetry of the inner surface with respect to the optical axis and asymmetry of the outer surface with respect to the optical axis, and wherein the cross section comprises: a first portion of the outer surface defining a total internally reflective surface located on a side of the optical axis; and a second portion of the inner surface defining a focusing element that is located on the side of the optical axis for forming a beam extending within the lens between the focusing element and the totally internally reflective surface. 17. The lens of claim 16 , wherein the focusing element comprises a lens. 18. The lens of claim 16 , wherein the focusing element comprises a convex refractive surface. 19. The lens of claim 16 , further comprising a house side and a street side. 20. The lens of claim 16 , wherein a house side of the lens is disposed on the side of the optical axis, opposite a street side of the lens.