Modular light guide luminaires

What is claimed is: 1. A luminaire module comprising: a plurality of light-emitting elements (LEEs) disposed along a first direction on one or more substrates and adapted to emit light in a forward direction orthogonal to the first direction; a light guide elongated along the first direction comprising an input end and an output end, and side surfaces extending from the input end to the output end, the side surfaces shaped to guide light emitted by the one or more LEEs and received at the input end of the light guide in the forward direction to the output end of the light guide and provide guided light at the output end of the light guide; an optical extractor elongated along the first direction, the optical extractor being optically coupled with the output end of the light guide and adapted to receive the guided light, the optical extractor having a first redirecting surface, a second redirected surface, a first output surface, and a second output surface, the first redirecting surface of the optical extractor being adapted to reflect towards the first output surface a first portion of the light received at the optical extractor in a first direction that has a component orthogonal to the forward direction, wherein the first output surface is adapted to transmit to an ambient environment the light reflected by the first redirecting surface, and the second redirecting surface of the optical extractor being adapted to reflect a second portion of the light received at the optical extractor in a second direction that has a component orthogonal to the forward direction and antiparallel to the orthogonal component of the first direction, wherein the second output surface is adapted to transmit to the ambient environment the light reflected by the second redirecting surface, wherein the first and second output surfaces diffuse light; and a cap elongated along the first direction, the cap comprising a light-input surface and a diffusive light-output surface, wherein the light-input surface of the cap is directly coupled to the first redirecting surface through a first adhesive line, and the second redirecting surface through a second adhesive line, wherein the light-input surface of the cap is adapted to receive light that is transmitted through the first redirecting surface and the second redirecting surface, and wherein the diffusive light-output surface of the cap is adapted to transmit to the ambient environment the light received from the first and second redirecting surfaces. 2. The luminaire module of claim 1 , wherein the light guide comprises a solid transparent material and the side surfaces are configured to guide the light via TIR. 3. The luminaire module of claim 1 , wherein the light guide is hollow and the side surfaces are reflectors configured to guide the light via specular reflection. 4. The luminaire module of claim 1 , further comprising one or more couplers positioned to receive a portion of the light emitted by corresponding one or more LEEs and adapted to at least partially collimate the received portion of the light, the one or more couplers being adjacent to the input end of the light guide. 5. The luminaire module of claim 1 , wherein at least one of the first redirecting surface, the second redirecting surface, or at least one of the first and second output surfaces comprises a diffusive film. 6. The luminaire module of claim 5 , wherein the diffusive film is reflective. 7. The luminaire module of claim 5 , wherein the diffusive film is transmissive. 8. A method of fabricating the optical extractor of claim 5 , the method comprising disposing the diffusive film on at least one of the first redirecting surface, the second redirecting surface, or at least one of the one or more output surfaces. 9. The luminaire module of claim 1 , wherein at least one of the first redirecting surface, the second redirecting surface, or at least one of the first and second output surfaces comprises diffusive structures. 10. The luminaire module of claim 9 , wherein the diffusive structures include facets. 11. The luminaire module of claim 9 , wherein the diffusive structures include indentations. 12. The luminaire module of claim 9 , wherein the diffusive structures include undulating features. 13. The luminaire module of claim 9 , wherein the diffusive structures are two dimensional within at least one of the first redirecting surface, the second redirecting surface, or at least one of the first and second output surfaces. 14. A method of fabricating the optical extractor of claim 9 , the method comprising: providing an optical extractor having smooth surfaces corresponding to at least one of the first redirecting surface, the second redirecting surface, or at least one of the one or more output surfaces; and generating the diffusive structures on at least one of the smooth surfaces. 15. The method of claim 14 , wherein generating the diffuse structures comprises embossing the diffusive structures. 16. The method of claim 14 , wherein generating the diffuse structure comprises molding the diffusive structures. 17. The method of claim 14 , wherein generating the diffuse structure comprises imprinting the diffusive structures. 18. The luminaire module of claim 1 , wherein the diffusive surfaces have translational symmetry of at least one of the first redirecting surface, the second redirecting surface, or at least one of the first and second output surfaces. 19. The luminaire module of claim 1 , wherein at least one of the first redirecting surface, the second redirecting surface, or at least one of the first and second output surfaces further comprises a reflective coating. 20. The luminaire module of claim 1 , further comprising one or more reflectors disposed on at least a portion of at least one of the first or the second redirecting surface of the optical extractor.