Stack lighter luminaire

What is claimed is: 1. A luminaire module comprising: a plurality of light-emitting elements (LEEs) arranged to emit light in a forward direction; a light guide comprising a pair of opposing side surfaces extending from a receiving end of the light guide to an opposing end of the light guide, the light guide configured to guide light received at the receiving end from the LEEs in the forward direction to the opposing end, wherein the light guide is elongated along a transverse direction orthogonal to the forward direction; and an optical extractor elongated along the transverse direction and located at the opposing end of the light guide to receive the guided light, the optical extractor comprising a redirecting surface and an output surface, wherein the received light undergoes two reflections off the redirecting surface prior to being output through the output surface in an ambient environment as output light in a backward angular range, wherein the redirecting surface and the output surface are shaped and arranged such that the luminaire module provides illumination on a target surface that is laterally spaced-apart from the optical extractor and is encompassed by the backward angular range, and wherein a ratio of maximum illumination to minimum illumination on the target surface over 1 m along the dimension of the target surface parallel to the forward direction is at most 4:1. 2. The luminaire module of claim 1 , wherein the output surface is convex, and the redirecting surface of the optical extractor comprises a first reflective surface where the light received by the optical extractor undergoes a first of the two reflections and a second reflective surface where the light that underwent the first of the two reflections undergoes a second of the two reflections. 3. The luminaire module of claim 2 , wherein the output surface is a diffusive surface. 4. The luminaire module of claim 2 , wherein the first reflective surface is convex. 5. The luminaire module of claim 2 , wherein the first reflective surface is flat. 6. The luminaire module of claim 1 , wherein the optical extractor is formed from a first solid material. 7. The luminaire module of claim 6 , wherein the light guide is formed from a second solid material. 8. A luminaire module comprising: a plurality of light-emitting elements (LEEs) arranged to emit light in a forward direction; a light guide comprising a pair of opposing side surfaces extending from a receiving end of the light guide to an opposing end of the light guide, the light guide configured to guide light received at the receiving end from the LEEs in the forward direction to the opposing end, wherein the light guide is elongated along a transverse direction orthogonal to the forward direction; and an optical extractor elongated along the transverse direction and located at the opposing end of the light guide to receive the guided light, the optical extractor comprising a redirecting surface and an output surface, wherein the received light undergoes two reflections off the redirecting surface prior to being output through the output surface in an ambient environment as output light in a backward angular range, wherein the redirecting surface and the output surface are shaped and arranged such that the luminaire module provides illumination on a target surface that is laterally spaced-apart from the optical extractor and is encompassed by the backward angular range, and wherein a ratio of maximum illumination to minimum illumination on the target surface over 2 m along the dimension of the target surface parallel to the forward direction is at most 10:1. 9. The luminaire module of claim 8 , wherein the redirecting surface and the output surface are shaped and arranged such that a prevalent direction of light propagation within the backward angular range has a component antiparallel to the forward direction and a component orthogonal to the forward direction. 10. The luminaire module of claim 8 further comprising one or more optical couplers, wherein the light provided by the LEEs is in a first angular range, the optical couplers are arranged to receive the light provided by the LEEs and redirect it to the receiving end of the light guide in a second angular range, and a numerical aperture of the light guide is such that the light received from the optical couplers in the second angular range can be guided by the light guide through TIR off the pair of opposing side surfaces. 11. The luminaire module of claim 8 , wherein the LEEs are LEDs that emit white light. 12. The luminaire module of claim 8 is elongated along a direction orthogonal to the forward direction. 13. The luminaire module of claim 8 has a toroidal shape about an axis parallel to the forward direction. 14. An illumination device comprising one or more luminaire modules as defined in claim 8 and configured to operate as a stack lighter luminaire. 15. An illumination device comprising one or more luminaire modules as defined in claim 8 and configured to operate as a wall wash luminaire. 16. The luminaire module of claim 8 , wherein the output surface is convex, and the redirecting surface of the optical extractor comprises a first reflective surface where the light received by the optical extractor undergoes a first of the two reflections and a second reflective surface where the light that underwent the first of the two reflections undergoes a second of the two reflections. 17. The luminaire module of claim 16 , wherein the output surface is a diffusive surface. 18. The luminaire module of claim 16 , wherein the first reflective surface is convex. 19. The luminaire module of claim 16 , wherein the first reflective surface is flat. 20. The luminaire module of claim 8 , wherein the optical extractor is formed from a first solid material. 21. The luminaire module of claim 20 , wherein the light guide is formed from a second solid material. 22. The luminaire module of claim 1 , wherein the redirecting surface and the output surface are shaped and arranged such that a prevalent direction of light propagation within the backward angular range has a component antiparallel to the forward direction and a component orthogonal to the forward direction. 23. The luminaire module of claim 1 further comprising one or more optical couplers, wherein the light provided by the LEEs is in a first angular range, the optical couplers are arranged to receive the light provided by the LEEs and redirect it to the receiving end of the light guide in a second angular range, and a numerical aperture of the light guide is such that the light received from the optical couplers in the second angular range can be guided by the light guide through TIR off the pair of opposing side surfaces. 24. The luminaire module of claim 1 , wherein the LEEs are LEDs that emit white light. 25. The luminaire module of claim 1 is elongated along a direction orthogonal to the forward direction. 26. The luminaire module of claim 1 has a toroidal shape about an axis parallel to the forward direction. 27. An illumination device comprising one or more luminaire modules as defined in claim 1 and configured to operate as a stack lighter luminaire. 28. An illumination device comprising one or more luminaire modules as defined in claim 1 and configured to operate as a wall wash luminaire.