Optical waveguides

We claim: 1. An optical waveguide body, comprising: a first surface that extends between an input surface and an end surface; a second surface opposite the first surface wherein a body thickness is disposed between the first and second surfaces; wherein the body thickness at the input surface is greater than the body thickness at the end surface and the body thickness between the input surface and end surface decreases over a length of the body; and at least one stepped feature defined by first and second oblique angles on one of the first and second surface; wherein the first surface is curved along an entire first extent between the input surface and the end surface, and wherein the first surface is curved along an entire second extent between side surfaces wherein the first extent is orthogonal to the second extent. 2. The optical waveguide body of claim 1 , wherein light is emitted through the first surface. 3. The optical waveguide body of claim 2 , wherein light is internally reflected along the first and second surfaces. 4. The optical waveguide body of claim 1 , wherein the first thickness is approximately 6 mm, the second thickness is approximately 2 mm, and the first surface comprises a radius of curvature of approximately 200 mm. 5. The optical waveguide body of claim 1 , wherein the waveguide comprises a length between the input surface and the end surface and a width transverse to the length, wherein a distance between the first surface and the second surface decreases at least a portion along the width, and wherein the second surface is curved. 6. The optical waveguide body of claim 1 , further comprising at least one extraction feature. 7. The optical waveguide body of claim 6 , wherein the at least one extraction feature is located within the body. 8. The optical waveguide body of claim 6 , wherein the at least one extraction feature is located on an outer surface of the body. 9. The optical waveguide body of claim 6 , wherein the at least one extraction feature is an angled slot comprising parallel sides. 10. The optical waveguide body of claim 6 , further comprising a reflective surface. 11. The optical waveguide body of claim 10 , wherein the reflective surface is disposed adjacent to the at least one extraction feature. 12. The optical waveguide body of claim 6 , wherein the extraction feature comprises a stepped feature. 13. The optical waveguide body of claim 12 , wherein the stepped feature is formed on the first surface. 14. The optical waveguide body of claim 1 , further comprising an array of extraction features on the first surface. 15. The optical waveguide body of claim 14 , wherein the extraction features comprise sizes that vary across the first surface. 16. The optical waveguide body of claim 14 , further comprising at least one reflective surface adjacent to at least one extraction feature. 17. The optical waveguide body of claim 1 , in combination with a coupling optic. 18. The optical waveguide body of claim 1 , further in combination with a light source. 19. The optical waveguide body of claim 1 , further including unequally spaced extraction features disposed on the first surface. 20. The optical waveguide body of claim 1 , further including unequally sized extraction features disposed on the first surface. 21. The optical waveguide body of claim 1 , further including unequally shaped extraction features disposed on the first surface. 22. The optical waveguide body of claim 1 , further including equally spaced extraction features disposed on the first surface. 23. The optical waveguide body of claim 1 , further including equally sized extraction features disposed on the first surface. 24. The optical waveguide body of claim 1 , further including equally shaped extraction features disposed on the first surface. 25. The optical waveguide body of claim 1 , wherein the body is made of a material selected from the group comprising an acrylic material, a silicone, a polycarbonate, and a glass material. 26. An optical waveguide body, comprising: a first surface that extends between an input surface and an end surface; a second surface opposite the first surface; wherein the input surface comprises a first thickness disposed between the first and second surfaces; wherein the end surface comprises a second thickness disposed between the first and second surfaces less than the first thickness; wherein at least one of the first and second surfaces comprises first and second pluralities of spaced surfaces wherein each surface of the first plurality of spaced surfaces is disposed between and comprises ends coincident with ends of successive surfaces of the second plurality of spaced surfaces and the first and second pluralities of spaced surfaces define an overall body thickness that does not increase at any point from the input surface to the end surface; wherein the waveguide body develops a light distribution for general lighting; wherein at least one of the surfaces of the first and second pluralities of spaced surfaces is disposed at an oblique angle with respect to an adjacent other surface of the first and second pluralities of spaced surfaces; and wherein the first and the second pluralities of spaced surfaces are unequally spaced. 27. The optical waveguide body of claim 26 , wherein at least one of the surfaces of the first and second pluralities is disposed at an obtuse angle with respect to an adjacent other surface of the first and second pluralities. 28. The optical waveguide body of claim 26 , wherein at least one of the surfaces of the first and second pluralities is disposed at an acute angle with respect to an adjacent other surface of the first and second pluralities. 29. The optical waveguide body of claim 26 , wherein an optical feature is disposed on at least one of the surfaces of the first and second pluralities. 30. The optical waveguide body of claim 29 , wherein the optical feature is an extraction feature. 31. The optical waveguide body of claim 26 , wherein the overall body thickness decreases between the input surface and the end surface. 32. The optical waveguide body of claim 31 , wherein the overall body thickness decreases with at least one of the first and second pluralities of surfaces. 33. An optical waveguide body, comprising: a first surface extending in a length dimension between an input surface and an end surface and the first surface extending in a width dimension orthogonal to the length dimension; a second surface opposite the first surface; wherein the input surface comprises a first thickness disposed between the first and second surfaces; wherein the end surface comprises a second thickness disposed between the first and second surfaces less than the first thickness; and wherein at least one stepped feature is located on one of the first and second surfaces and a plurality of discrete optical features is disposed on the at least one stepped feature and the discrete optical features are disposed in a sequence extending along the width dimension. 34. The optical waveguide body of claim 33 , wherein the at least one stepped feature is defined by first and second obtuse angles on one of the first and second surfaces. 35. The optical