Extraction film for optical waveguide and method of producing same

We claim: 1. A lighting device, comprising: a first waveguide body arm comprising a first portion and a second portion disposed at a non-zero angle with respect to the first portion; a second waveguide body arm comprising a third portion and a fourth portion disposed at the non-zero angle with respect to the third portion, wherein a coupling cavity is defined between the second portion and the fourth portion; a first film disposed on a first surface of the first portion of the first waveguide body arm, wherein the first film comprises a first base and a first plurality of undercut light extraction elements disposed between the first base and the first surface, and wherein each of at least some of the first plurality of undercut light extraction elements comprises a first cross sectional curved shape; a second film disposed on a third surface of the third portion of the second waveguide body arm, wherein the second film comprises a second base and a second plurality of undercut light extraction elements disposed between the second base and the third surface, and wherein each of at least some of the second plurality of undercut light extraction elements comprises a second cross sectional curved shape; and a light source disposed adjacent to the second portion and the fourth portion such that light from the light source is totally internally reflected through the second portion and the fourth portion into the first portion and the third portion, respectively, and the light is extracted via the first plurality of undercut light extraction elements and the second plurality of undercut light extraction elements, respectively. 2. The lighting device of claim 1 , wherein the first plurality and the second plurality of undercut light extraction elements are disposed in hexagonal arrays. 3. The lighting device of claim 1 , wherein the first and second cross sectional curved shapes are hemispherical. 4. The lighting device of claim 1 , wherein the first and second waveguide body arms and the first and second films are made of the same material. 5. The lighting device of claim 1 , further comprising a first reflector disposed adjacent a second surface of the first portion of the first waveguide body arm opposite the first surface and a second reflector disposed adjacent a fourth surface of the third portion of the second waveguide body arm opposite the third surface. 6. The lighting device of claim 1 , further comprising a third plurality of undercut light extraction elements disposed on a second surface of the first portion opposite the first surface and a fourth plurality of undercut light extraction elements disposed on a fourth surface of the third portion opposite the third surface. 7. The lighting device of claim 1 , wherein all of the first and second plurality of undercut light extraction elements comprise substantially the same height. 8. The lighting device of claim 7 , wherein each of the first and second bases comprises a constant thickness. 9. The lighting device of claim 8 , wherein each of the first and second plurality of undercut light extraction elements comprises a truncated shape and the height of each of the first and second plurality of undercut light extraction elements is within a range of 100 micrometers to 590 micrometers and the thickness of each of the first and second bases is about 500 micrometers. 10. The lighting device of claim 1 , wherein the first and second plurality of undercut light extraction elements each comprises a truncated cross sectional shape. 11. The lighting device of claim 10 , wherein the truncated cross sectional shape is hemispherical. 12. The lighting device of claim 1 , wherein the first and second waveguide body arms and the first and second films are made of different materials. 13. The lighting device of claim 1 , wherein each of the first and second plurality of undercut light extraction elements comprises a first cross sectional dimension proximal the first and second bases, respectively, and a second cross sectional dimension smaller than the first cross sectional dimension distal from the first and second bases, respectively. 14. A lighting device, comprising: a waveguide body comprising a first surface and a second surface opposite the first surface; a film disposed on the first surface of the waveguide body wherein the film comprises a base and a plurality of undercut light extraction elements disposed in a pattern between the base and the first surface, wherein each of at least some of the plurality of undercut light extraction elements comprises a cross sectional curved shape and the at least some of the plurality of undercut light extraction elements are distributed in adjacent rows; and wherein a first distance dy between a first centerpoint of a first undercut light extraction element in a first row to a bisector point comprising a midpoint between a second centerpoint of a second undercut light extraction element and an adjacent third centerpoint of a third undercut light extraction element in a second row adjacent the first row is defined by an equation comprising ( dy )=(( dx ) x √{square root over (3)})/2 wherein dx is a second distance between the second centerpoint of the second undercut light extraction element and the third centerpoint of the third undercut light extraction element. 15. The lighting device of claim 14 , wherein each of at least some of the plurality of undercut light extraction elements comprises a first cross sectional dimension proximal the base and a second cross sectional dimension smaller than the first cross sectional dimension distal from the base and further comprise substantially the same height. 16. The lighting device of claim 15 , wherein each undercut light extraction element comprises a truncated curved shape. 17. The lighting device of claim 16 , wherein the curved shape is hemispherical. 18. The lighting device of claim 14 , wherein the plurality of undercut light extraction elements is disposed in a hexagonal array. 19. The lighting device of claim 14 , further comprising a reflector disposed adjacent the second surface opposite the first surface. 20. The lighting device of claim 14 , wherein each light extraction element comprises a truncated shape and each light extraction element comprise substantially the same height within a range of 100 micrometers to 590 micrometers and the thickness of the base is about 500 micrometers.