LED lamp with uniform omnidirectional light intensity output

The invention claimed is: 1. A light emitting apparatus comprising: a ring-shaped LED-based light source; a base including a base connector; a heatsink on which the ring-shaped LED-based light source is disposed on a first end and on which the base is disposed on a second end, said heatsink arranged to dissipate heat generated by the ring-shaped LED-based light source, wherein the heat sink comprises a hollow chimney; a toroidal diffuser generating a light intensity distribution output responsive to illumination inside the diffuser; and the LED-based light source, the diffuser, the heatsink and the base being secured together as a unitary LED lamp installable in a lighting socket by connecting the base connector with the lighting socket; and the base being operatively connected with the LED-based light source in the unitary LED lamp to electrically power the LED-based light source using electrical power received at the base connector. 2. The light emitting apparatus as set forth in claim 1 wherein the heatsink has a relatively smaller size proximate to the diffuser and relatively larger size distal from the diffuser. 3. The light emitting apparatus as set forth in claim 1 wherein the heatsink comprises a cooling fan synthetic jet, or other active cooling element. 4. The light emitting apparatus as set forth in claim 1 wherein the ring-shaped LED-based light source comprises ultraviolet, violet or blue LEDs, and the toroidal diffuser comprises a phosphor. 5. The light emitting apparatus as set forth in claim 1 , wherein the heatsink further comprises a plurality of fins. 6. The light emitting apparatus as set forth in claim 1 , wherein the base connector comprises a threaded Edison base connector. 7. The light emitting apparatus as set forth in claim 1 , wherein said apparatus generates illumination with uniformity variation of +−30% or less over a latitudinal range θ=[0°, 120°]. 8. The light emitting apparatus as set forth in claim 1 , wherein said apparatus generates illumination with uniformity variation of +−30% or less over a latitudinal range θ=[0°, 135°]. 9. The light emitting apparatus as set forth in claim 1 , wherein said apparatus generates illumination with uniformity variation of +−30% or less over a latitudinal range θ=[0°, 150°]. 10. The light emitting apparatus as set forth in claim 1 , wherein the heatsink lies within a far field latitudinal blocking angle of 60 degrees or less and has angled sides with angles that are about the same as the blocking angle. 11. The light emitting apparatus as set forth in claim 1 , wherein the heatsink lies within a far field latitudinal blocking angle of 45 degrees or less and has angled sides with angles that are about the same as the blocking angle. 12. A solid state lighting device comprising: a base end; a plurality of solid state emitters comprising ultraviolet, violet or blue LEDs, said LEDs forming a ring-shaped distribution on a former or chimney; and a heatsink disposed between the base end and the at least one solid state emitter, and arranged to dissipate heat generated by the at least one solid state emitter; wherein the plurality of solid state emitters are disposed under or within a generally toroidal-shaped light transmissive envelope comprising a phosphor; and wherein the heatsink has a first width proximate the generally toroidal-shaped light transmissive envelope, and has a second width distal the generally toroidal-shaped light transmissive envelope; wherein the first width is smaller than the second width. 13. The solid state lighting device of claim 12 , wherein the at least one solid state emitter is a ring-shaped LED-based light source, and the heatsink comprises a hollow chimney to facilitate the flow of circulating air through the heatsink. 14. The solid state lighting device of claim 13 , wherein the chimney further comprises heat-dissipating elements extending into the interior of the hollow chimney. 15. A solid state lighting device comprising: a base end; at least one solid state emitter comprising a ring-shaped LED-based light source; and a heatsink disposed between the base end and the at least one solid state emitter, and arranged to dissipate heat generated by the at least one solid state emitter; wherein the at least one solid state emitter is disposed under or within a generally toroidal-shaped light transmissive envelope; and wherein the heatsink has a first width proximate the generally toroidal-shaped light transmissive envelope, and has a second width distal the generally toroidal-shaped light transmissive envelope; wherein the first width is smaller than the second width and wherein the heatsink comprises a hollow chimney to facilitate the flow of circulating air through the heatsink. 16. The solid state lighting device of claim 15 , wherein the heatsink further comprises a plurality of fins. 17. The light emitting apparatus as set forth in claim 15 , wherein said apparatus generates illumination with uniformity variation of +−30% or less over a latitudinal range θ=[0°, 120°]. 18. The solid state lighting device of claim 15 , wherein said device generates illumination with uniformity variation of +−30% or less over a latitudinal range θ=[0 degrees, 135 degrees] and the base does not extend into the latitudinal range θ=[0 degrees, 135 degrees]. 19. The solid state lighting device as set forth in claim 15 , wherein the light assembly generates illumination with uniformity variation of +−30% or less over a latitudinal range θ=[0 degrees, 150 degrees] and the base does not extend into the latitudinal range θ=[0 degrees, 150 degrees]. 20. The solid state lighting device as set forth in claim 15 , wherein the heatsink lies within a far field latitudinal blocking angle of 60 degrees or less and has angled sides with angles that are about the same as the blocking angle. 21. The solid state lighting device as set forth in claim 15 , wherein the heatsink lies within a far field latitudinal blocking angle of 45 degrees or less and has angled sides with angles that are about the same as the blocking angle. 22. The light emitting apparatus as set forth in claim 15 , wherein the base end comprises a threaded Edison base connector.