System and method for producing a blending light distribution from LED luminaires

What is claimed is: 1. An optical system comprising: a light source emitting a converging source light beam; and a beam adjuster optical element configured to receive the source light beam and to emit an adjusted light beam having a center to edge ratio in the range 3:1 to 7:1, the beam adjuster optical element comprising a single lens including: an outer portion configured to receive an outer portion of the source light beam and to cause light rays of the outer portion of the source light beam to diverge in a corresponding outer portion of the adjusted light beam; and an inner portion configured to receive an inner portion of the source light beam and to cause light rays of the inner portion of the source light beam to converge in a corresponding inner portion of the adjusted light beam. 2. The optical system of claim 1 , wherein the single lens comprises an outer portion having a negative optical power and an inner portion having a positive optical power. 3. The optical system of claim 1 , wherein the beam adjuster optical element comprises an annular lenticular lens with an outer portion having a plano-concave shape and an inner portion having a plano-convex shape. 4. A luminaire, comprising: a light source emitting a converging source light beam; a beam adjuster optical element configured to receive the source light beam and to emit an adjusted light beam having a center to edge ratio in the range 3:1 to 7:1, the beam adjuster optical element comprising: an outer portion configured to receive an outer portion of the source light beam and to cause light rays of the outer portion of the source light beam to diverge in a corresponding outer portion of the adjusted light beam; and an inner portion configured to receive an inner portion of the source light beam and to cause light rays of the inner portion of the source light beam to converge in a corresponding inner portion of the adjusted light beam; a movement system, the beam adjuster optical element mechanically coupled to the movement system, the movement system comprising a motor configured to move the beam adjustor optical element into and out of the source light beam; and a control system electrically coupled to the motor and configured to receive a control signal via a data link and to move the beam adjustor optical element into and out of the source light beam in response to the control signal. 5. The luminaire of claim 4 , wherein the luminaire comprises a projection optical system. 6. The optical system of claim 1 , wherein the beam adjustor optical element is coupled to a movement system configured to move the beam adjustor optical element into and out of the source light beam. 7. The optical system of claim 6 , wherein the movement system comprises an arm mechanically coupled to the beam adjustor optical element and to a motor, the motor configured to move the arm to move the beam adjustor optical element into and out of the source light beam. 8. The optical system of claim 6 , wherein the movement system comprises a wheel mechanically coupled to the beam adjustor optical element and to a motor, the motor configured to rotate the wheel to move the beam adjustor optical element into and out of the source light beam. 9. The luminaire of claim 4 , wherein the movement system comprises an arm mechanically coupled to the beam adjustor optical element and to the motor, the motor configured to move the arm to move the beam adjustor optical element into and out of the source light beam. 10. The luminaire of claim 4 , wherein the movement system comprises a wheel mechanically coupled to the beam adjustor optical element and to the motor, the motor configured to rotate the wheel to move the beam adjustor optical element into and out of the source light beam.