Irradiation devices with optical modulators for additively manufacturing three-dimensional objects

What is claimed is: 1. A method of additively manufacturing a three-dimensional object, the method comprising: generating an energy beam with a beam generation device, the energy beam becoming incident upon an optical modulator comprising a micromirror array disposed downstream from the beam generation device; reflecting a plurality of beam segments of the energy beam with the micromirror array, the micromirror array comprising a plurality of micromirrors configured to reflect the plurality of beam segments; modulating respective ones of the plurality of micromirrors according to beam modulation instructions; and converging the plurality of beam segments into a plurality of beam spots having a linear arrangement. 2. The method of claim 1 , comprising: propagating the plurality of beam spots across a build plane by way of relative motion between the build plane and the plurality of beam spots. 3. The method of claim 1 , wherein the plurality of beam spots have a space between adjacent beam spots on a surface of a powder bed, wherein the space between the adjacent beam spots has an aspect ratio of the space to a width of one or the plurality of beam spots that is less than 0.5. 4. The method of claim 1 , wherein the plurality of beam spots form one or more linear melt pools across a surface of a powder bed. 5. The method of claim 1 , wherein modulating the respective ones of the plurality of micromirrors according to the beam modulation instructions comprises: modulating the plurality of micromirrors to the respective ones of a plurality of modulation states. 6. The method of claim 1 , wherein the plurality of beam spots respectively correspond to respective ones of a plurality of combination zones. 7. The method of claim 1 , wherein a modulation group comprising a subset of micromirrors are arranged linearly with a space between adjacent micromirrors of the subset of micromirrors, wherein each micromirror element micromirror of the subset of micromirrors are spaced apart according to an aspect ratio of the space to a width of the micromirrors that is less than 0.5. 8. A method of additively manufacturing a three-dimensional object, the method comprising: generating an energy beam with a beam generation device, the energy beam becoming incident upon an optical modulator comprising a micromirror array disposed downstream from the beam generation device; reflecting a plurality of beam segments of the energy beam with the micromirror array, the micromirror array comprising a plurality of micromirrors configured to reflect the plurality of beam segments; modulating respective ones of the plurality of micromirrors according to beam modulation instructions, wherein modulating respective ones of the plurality of micromirrors according to beam modulation instructions comprises modulating a plurality of micromirrors to respective ones of a plurality of modulation states; and converging the plurality of beam segments into a plurality of beam spots having a linear arrangement. 9. The method of claim 8 , comprising: propagating a plurality of beam spots across a build plane by way of relative motion between the build plane and the plurality of beam spots. 10. The method of claim 8 , wherein the plurality of beam spots have a space between adjacent beam spots on a surface of a powder bed defined by a plurality of particles, wherein the space between adjacent beam spots has a space width that is less than an average particle size of the plurality of particles. 11. The method of claim 8 , wherein the plurality of beam spots have a space between adjacent beam spots on a surface of a powder bed, wherein the space between adjacent beam spots has an aspect ratio of the space to a width of the beam spot that is less than 0.5. 12. The method of claim 8 , wherein the plurality of beam spots form one or more linear melt pools across a surface of a powder bed. 13. The method of claim 8 , wherein the plurality of beam spots respectively correspond to respective ones of a plurality of combination zones. 14. The method of claim 8 , wherein the micromirror array comprises a plurality of micromirrors, wherein a modulation group comprising a subset of micromirrors are arranged linearly with a space between adjacent micromirrors of the subset of micromirrors, wherein the micromirrors of the subset of micromirrors are spaced apart according to an aspect ratio of the space to a width of the micromirrors that is less than 0.5.