Lamp with light emitting elements surrounding active cooling device

What is claimed is: 1. An actively cooled lamp, the lamp defining axial, radial, and circumferential directions, the lamp comprising: a housing; a heat sink connected with said housing, said heat sink including a plurality of fins on an outer surface thereof for dissipating heat away from the lamp, said heat sink defining a chamber and a plurality of openings positioned about the heat sink for allowing a flow of air in or out of the chamber, the openings positioned so as to direct air flow along the fins of said heat sink, wherein the chamber comprises no ducts or channels; an active cooling device positioned within the chamber of said heat sink and configured for creating a flow of air through the openings in said heat sink without ducts or channels; a plurality of light emitting elements positioned about said heat sink and spaced apart along the circumferential direction, said light emitting elements positioned between the fins of said heat sink; a plurality of optical elements positioned over said light emitting elements so as to receive and distribute light from each of said light emitting elements; and an electronic driver that is electrically connected with, and provides power to, said light emitting elements, said active cooling device, or both; wherein said housing defines an interior space into which said electronic driver is received. 2. An actively cooled lamp as in claim 1 , further comprising: a circuit board attached to said heat sink and extending along the circumferential direction about said heat sink; wherein said light emitting elements are mounted upon, and electrically connected with, said circuit board. 3. An actively cooled lamp as in claim 2 , wherein said light emitting elements comprise LEDs that are oriented radially outward. 4. An actively cooled lamp as in claim 2 , wherein said circuit board comprises a flexible or bendable printed circuit board. 5. An actively cooled lamp as in claim 1 , wherein the fins of said heat sink each comprise a pair of opposing sides spaced apart along the circumferential direction, wherein the opposing sides define a plurality of recesses, the recesses each receiving one of said optical elements. 6. An actively cooled lamp as in claim 5 , wherein said optical elements and said heat sink define a channel extending between a pair of the fins of said heat sink with at least one of said light emitting elements positioned in the channel. 7. An actively cooled lamp as in claim 1 , wherein said heat sink comprises an outer portion and an inner portion mechanically joined together. 8. An actively cooled lamp as in claim 7 , wherein said outer portion and said inner portion each comprise a tapered edge whereby the outer portion and inner portion are joined together by a taper fit to form said heat sink. 9. An actively cooled lamp as in claim 1 , wherein said active cooling element comprises a synthetic jet actuator configured to move air in and out of the chamber through the openings in said heat sink. 10. An actively cooled lamp as in claim 9 , wherein said synthetic jet actuator is configured to operate at less than about six ft 3 /min/W (cubic feet per minute per watt of input power to the actuator). 11. An actively cooled lamp as in claim 1 , wherein the light emitting elements and the optical elements are configured to provide a lamp that, in operation, has an omnidirectional output with a variation in light intensity measured at any distance from a lamp axis over the range of zero degrees to 135 degrees of not more than ±20% from the average light intensity measured over that same range. 12. An actively cooled lamp as in claim 1 , wherein said heat sink and said active cooling device divide the chamber into at least two portions configured so that the active cooling device causes air to be expelled through the openings connected with one portion while drawing in air through the openings connected with the other portion. 13. An actively cooled lamp as in claim 1 , wherein said optical element comprises a diffuser. 14. An actively cooled lamp, the lamp defining axial, radial, and circumferential directions, the lamp comprising: a housing; a heat sink connected with said housing, said heat sink including a plurality of fins on an outer surface thereof for dissipating heat away from the lamp, said heat sink defining a chamber and a plurality of openings positioned about the heat sink for allowing a flow of air in or out of the chamber, the openings positioned so as to direct air flow along the fins on the outer surface of said heat sink; an active cooling device positioned within the chamber of said heat sink and configured for creating a flow of air through the openings in said heat sink without ducts or channels between the openings and the active cooling device, and wherein the chamber comprises no ducts or channels between the openings and active cooling device; a plurality of light emitting elements positioned about said heat sink and spaced apart along the circumferential direction, said light emitting elements positioned between the fins on the outer surface of said heat sink; a plurality of optical elements positioned over said light emitting elements so as to receive and distribute light from each of said light emitting elements, wherein the fins on the outer surface of said heat sink each comprise a pair of opposing sides spaced apart along the circumferential direction, wherein the opposing sides define a plurality of recesses, the recesses each receiving one of said optical elements; and an electronic driver that is electrically connected with, and provides power to, said light emitting elements, said active cooling device, or both; wherein said housing defines an interior space into which said electronic driver is received.