Illumination devices including multiple light emitting elements

What is claimed is: 1. A luminaire, comprising: a plurality of light guides in a one-dimensional array along a first common direction, wherein each light guide has an input end and an output end and is configured to guide light received at the input end to the output end along a second common direction that is orthogonal to the first common direction, the second common direction corresponding to a forward direction for the luminaire; each light guide being optically coupled to an optical extractor at the output end of the light guide and configured to receive light guided by the light guide and reflect the received light towards an output surface of the optical extractor which transmits the received light into one or more output directions, wherein the light guides and optical extractor are shaped to direct substantially all of the light into output directions in a range of angles between 45° and 315° in a cross-sectional plane parallel to the forward direction and orthogonal to the first common direction, where 0° corresponds to the forward direction; and each light guide being coupled to a plurality of light emitting elements (LEEs) arranged at the input end of the light guide and being arranged to emit light that is coupled into the light guide at the input end. 2. The luminaire of claim 1 , wherein each light guide has a first dimension and a second dimension, the first dimension corresponding to a depth of the light guide from the input end to the output end and the second dimension being a thickness of the light guide measured orthogonal to the first dimension, wherein the first dimension is in a range from about 1 cm to about 20 cm. 3. The luminaire of claim 2 , wherein the second dimension is in a range from about 0.05 cm to about 2 cm. 4. The luminaire of claim 1 , wherein each light guide has a first dimension and a second dimension, the first dimension corresponding to a depth of the light guide from the input end to the output end and the second dimension being a thickness of the light guide measured orthogonal to the first dimension, wherein the second dimension is in a range from about 0.05 cm to about 2 cm. 5. The luminaire of claim 4 , wherein the second dimension is 0.2 cm or more. 6. The luminaire of claim 1 , wherein each light guide is a planar light guide. 7. The luminaire of claim 1 , wherein the plurality of light guides are arranged so that an edge of each light guide faces a corresponding edge of an adjacent one of the light guides. 8. The luminaire of claim 1 , wherein each LEE comprises a light emitting diode. 9. The luminaire of claim 8 , wherein each LEE is a white LED. 10. The luminaire of claim 1 , wherein each of the light guides has multiple of the plurality of LEEs arranged to emit light that is coupled into the light guide at the input end of the light guide. 11. The luminaire of claim 1 , wherein the LEEs are arranged so that they have a linear density of 0.5 per cm or more. 12. The luminaire of claim 11 , wherein the LEEs are arranged so that they have a linear density of 1 per cm or more. 13. The luminaire of claim 1 , wherein the LEEs are arranged in a one-dimensional array along the first common direction. 14. The luminaire of claim 1 , further comprising a plurality of optical couplers arranged between the LEEs and the plurality of light guides, each arranged to couple light emitted by one or more of the LEEs into an edge of a corresponding one of the light guides. 15. The luminaire of claim 1 , wherein each light guide is formed from a transparent material. 16. The luminaire of claim 15 , wherein the transparent material is an organic plastic. 17. The luminaire of claim 1 , wherein the light guides are configured to guide the light by total internal reflection of the light. 18. The luminaire of claim 1 , wherein each light guide is coupled to a separate optical extractor. 19. The luminaire of claim 18 , wherein each optical extractor is configured to reflect the corresponding output light into a common light distribution pattern. 20. The luminaire of claim 1 , wherein the vertex belongs to a wedge-shaped groove that forms the first optical interface, and for the cross-sectional plane, the second optical interface has an arcuate shape. 21. The luminaire of claim 1 , wherein the wedge-shaped groove comprises a first planar portion and a second planar portion that meet at an edge corresponding to the vertex. 22. The luminaire of claim 1 , wherein the input end is an input edge and the output end is an output edge.