Systems and methods for laser systems with variable beam parameter product

What is claimed is: 1. A laser delivery system for receiving and altering a spatial power distribution of a radiation beam from a beam source and focusing the radiation with the altered spatial power distribution onto a workpiece, the system comprising: a first acousto-optic element for receiving the radiation beam and altering a beam quality of the radiation beam along a first direction; a first acoustic transducer for generating sound waves within the first acousto-optic element, thereby altering an index of refraction of at least a portion of the first acousto-optic element in a periodic pattern; focusing optics for receiving the altered beam and focusing the altered beam on the workpiece; a controller for controlling the first acoustic transducer and/or the first acousto-optic element to achieve a target altered spatial power distribution on the workpiece; a second acousto-optic element for receiving the radiation beam and altering a beam quality of the radiation beam along a second direction different from the first direction; and a second acoustic transducer for generating sound waves within the second acousto-optic element, thereby altering an index of refraction of at least a portion of the second acousto-optic element in a periodic pattern, wherein the controller is configured to control the second acoustic transducer and/or the second acousto-optic element to achieve the target altered spatial power distribution on the workpiece. 2. The system of claim 1 , wherein the first direction is substantially orthogonal to the second direction. 3. The system of claim 1 , further comprising, disposed optically upstream of the first acousto-optic element, collimating optics for collimating the radiation beam. 4. A laser delivery system for receiving and altering a spatial power distribution of a radiation beam from a beam source and focusing the radiation with the altered spatial power distribution onto a workpiece, the system comprising: a first acousto-optic element for receiving the radiation beam and altering a beam quality of the radiation beam along a first direction; a first acoustic transducer for generating sound waves within the first acousto-optic element, thereby altering an index of refraction of at least a portion of the first acousto-optic element in a periodic pattern; focusing optics for receiving the altered beam and focusing the altered beam on the workpiece; a controller for controlling the first acoustic transducer and/or the first acousto-optic element to achieve a target altered spatial power distribution on the workpiece; and a second acoustic transducer for generating sound waves within the first acousto-optic element in a second direction different from the first direction, thereby altering an index of refraction of at least a portion of the first acousto-optic element in a periodic pattern, wherein (i) the first acousto-optic element alters a beam quality of the radiation beam along the second direction, and (ii) the controller is configured to control the second acoustic transducer to achieve the target altered spatial power distribution on the workpiece. 5. The system of claim 4 , wherein the first direction is substantially orthogonal to the second direction. 6. The system of claim 1 , wherein the radiation beam is a multi-wavelength beam.