Additive manufacturing device with acousto-optic deflector and related methods

That which is claimed is: 1. An additive manufacturing device comprising: a laser source configured to generate a laser beam; a build material holder configured to hold an additive build material; first and second controllable deflectors coupled sequentially in a series and having a first scan rate; first and second acousto-optic deflectors (AODs) arranged to operate at orthogonal angles and coupled sequentially in a series upstream from the first and second controllable deflectors, each AOD having a second scan rate faster than the first scan rate; and a controller configured to control the first and second controllable deflectors and the first and second AODs to scan the laser beam relative to the build material holder to additively manufacture a workpiece in successive layers from the additive build material, and control the first and second controllable deflectors to define a scanline trace of pixels on the additive build material, and while controlling the first and second AODs to define a respective subpixel pattern within each pixel so that a given pixel has a flattened pixel intensity profile from summation of multiple iterations of a Gaussian subpixel intensity profile, the scanline trace of pixels on the additive build material configured to have different subpixel lasing patterns within adjacent pixels, and the respective subpixel pattern within each pixel being offset from the scanline trace of pixels. 2. The additive manufacturing device of claim 1 wherein the first and second AODs have a controllable output intensity; and wherein the controller is configured to control the controllable output intensity of the first and second AODs. 3. The additive manufacturing device of claim 1 wherein the controller comprises control circuitry, and radio frequency (RF) drive circuitry coupled between the control circuitry and the first and second AODs. 4. The additive manufacturing device of claim 1 wherein each of the first and second controllable deflectors comprises at least one movable mirror. 5. The additive manufacturing device of claim 1 wherein the build material holder is configured to hold a metallic powder additive build material. 6. The additive manufacturing device of claim 1 wherein the build material holder is configured to hold a powder additive build material. 7. The additive manufacturing device of claim 1 wherein the build material holder is configured to hold a liquid additive build material. 8. The additive manufacturing device of claim 1 wherein the controller is configured to control the first and second controllable deflectors to define a raster scanline trace of pixels on the additive build material. 9. The additive manufacturing device of claim 1 wherein the controller is configured to control the first and second AODs to divide the laser beam into a first order scan beam, and a zero order dump beam; and wherein the controller is configured to attenuate the first order scan beam and the zero order dump beam. 10. The additive manufacturing device of claim 1 wherein the respective subpixel pattern within each pixel is updated in a direction opposite to a current scan. 11. An additive manufacturing device comprising: a laser source configured to generate a laser beam; a build material holder configured to hold an additive build material; a pair of controllable deflectors coupled sequentially in a series, each controllable deflector having a first scan rate; a pair of acousto-optic deflectors (AODs) arranged to operate at orthogonal angles and coupled sequentially in a series upstream from the pair of controllable deflectors, each AOD having a second scan rate faster than the first scan rate; and a controller configured to control the pair of controllable deflectors and the pair of AODs to scan the laser beam relative to the build material holder to additively manufacture a workpiece in successive layers from the additive build material, and control the pair of controllable deflectors to define a raster scanline trace of pixels on the additive build material, and while controlling the pair of AODs, to define a respective subpixel pattern within each pixel so that a given pixel has a flattened pixel intensity profile from summation of multiple iterations of a Gaussian subpixel intensity profile, the raster scanline trace of pixels on the additive build material configured to have different subpixel lasing patterns within adjacent pixels, and the respective subpixel pattern within each pixel being offset from the raster scanline trace of pixels. 12. The additive manufacturing device of claim 11 wherein each AOD has a controllable output intensity; and wherein the controller is configured to control the controllable output intensity of the pair of AODs. 13. The additive manufacturing device of claim 11 wherein the controller comprises control circuitry, and radio frequency (RF) drive circuitry coupled between the control circuitry and the pair of AODs. 14. The additive manufacturing device of claim 11 wherein each controllable deflector comprises a movable mirror. 15. The additive manufacturing device of claim 11 wherein the build material holder is configured to hold a metallic powder additive build material. 16. The additive manufacturing device of claim 11 wherein the build material holder is configured to hold a powder additive build material. 17. The additive manufacturing device of claim 11 wherein the build material holder is configured to hold a liquid additive build material. 18. The additive manufacturing device of claim 11 wherein the controller is configured to control the pair of AODs to divide the laser beam into a first order scan beam, and a zero order dump beam; and wherein the controller is configured to attenuate the first order scan beam and the zero order dump beam. 19. An additive manufacturing method comprising: operating a laser source to generate a laser beam directed towards a build material holder holding an additive build material; and operating a controller to control first and second controllable deflectors coupled sequentially in a series and first and second acousto-optic deflectors (AODs) being arranged to operate at orthogonal angles and coupled sequentially in a series upstream from the first and second controllable deflectors, the first and second controllable deflectors and the first and second AODs to scan the laser beam relative to the build material holder to additively manufacture a workpiece in successive layers from the additive build material, the first and second controllable deflectors having a first scan rate and the first and second AODs having a second scan rate faster than the first scan rate, and control the first and second controllable deflectors to define a scanline trace of pixels on the additive build material, and while controlling the first and second AODs to define a respective subpixel pattern within each pixel so that a given pixel has a flattened pixel intensity profile from summation of multiple iterations of a Gaussian subpixel intensity profile, the scanline trace of pixels on the additive build material configured to have different subpixel lasing patterns within adjacent pixels, and the respective subpixel pattern within each pixel being offset from the scanline trace of pixels. 20. The method of claim 19 wherein the first and second AODs each has a controllable output intensity; and wherein operating the controller comprises operating the controller to control the controllable out