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

What is claimed is: 1. An irradiation device for additively manufacturing three-dimensional objects, the irradiation device comprising: a housing assembly; a beam generation device configured to generate an energy beam, the beam generation device contained within the housing assembly; a positioning system configured to move the housing assembly; an optical modulator comprising a micromirror array disposed downstream from the beam generation device; a focusing lens assembly disposed downstream from the optical modulator; wherein the micromirror array comprises a plurality of micromirror elements configured to reflect a corresponding one of a plurality of beam segments of the energy beam along a beam path incident upon the focusing lens assembly; and wherein the focusing lens assembly comprises one or more lenses configured to converge the plurality of beam segments into a plurality of beam spots having a linear arrangement; and a controller configured to modulate respective ones of the plurality of micromirror elements according to beam modulation instructions defining a modulation state, wherein the plurality of beam spots are adjacent to each other in the linear arrangement to form a line, wherein the plurality of beam spots have a space between adjacent beam spots on a surface of a powder bed, wherein a width of the space between the adjacent beam spots corresponds to a width between adjacent micromirror elements of the optical modulator, and wherein the controller is configured to adjust a number of the plurality of micromirror elements included in a modulation group to provide irradiation to the powder bed with an intensity that varies with respect to a respective combination zone corresponding to the modulation group. 2. The irradiation devices of claim 1 , wherein the one or more lenses is a cylindrical lens. 3. The irradiation device of claim 1 , further comprising: a controller, wherein the controller is configured to cause the irradiation device to perform an irradiation sequence, the irradiation sequence comprising: modulating the plurality of micromirror elements to respective ones of a plurality of modulation states. 4. The irradiation device of claim 1 , wherein the beam modulation instructions include a build file that defines build points of a build array to be irradiated to additively manufacture the three-dimensional objects. 5. The irradiation device of claim 1 , wherein the controller is configured to scan a plurality of beam spots coinciding with the respective combination zones across the powder bed in a pattern comprising a linear or curvilinear arrangement of beam spots. 6. The irradiation device of claim 1 , wherein the controller is configured to cause a first modulation group to provide preheating and a second modulation group to provide melting or sintering, the first modulation group and the second modulation group irradiating the powder bed in sequence. 7. An irradiation device for additively manufacturing three-dimensional objects, the irradiation device comprising: a housing assembly; a beam generation device configured to generate an energy beam, the beam generation device contained within the housing assembly; a positioning system configured to move the housing assembly; an optical modulator comprising a micromirror array disposed downstream from the beam generation device; a focusing lens assembly disposed downstream from the optical modulator; wherein the micromirror array comprises a plurality of micromirror elements configured to reflect a corresponding one of a plurality of beam segments of the energy beam along a beam path incident upon the focusing lens assembly; and a controller configured to modulate respective ones of the plurality of micromirror elements according to beam modulation instructions defining a modulation state; wherein the focusing lens assembly comprises one or more lenses configured to focus the plurality of beam segments such that for respective ones of a plurality of modulation groups comprising a subset of micromirror elements from among the plurality of micromirror elements, a corresponding subset of beam segments are focused by the one or more lenses to at least partially overlap with one another at least at a respective one of a plurality of combination zones, the plurality of combination zones respectively corresponding to the respective ones of the plurality of modulation groups, and wherein the controller is configured to adjust a number of the plurality of micromirror elements included in the plurality of modulation groups to provide irradiation to a powder bed with an intensity that varies with respect to the plurality of combination zones corresponding to the plurality of modulation groups. 8. The irradiation device of claim 7 , wherein the plurality of combination zones together exhibit a pattern comprising a linear or curvilinear arrangement of at least some of the combination zones. 9. The irradiation device of claim 7 , wherein the plurality of combination zones respectively provide an increased intensity and/or power density relative to a point upstream from the optical modulator. 10. The irradiation device of claim 9 , wherein the intensity of the plurality of combination zones corresponds to a conduction irradiation regime. 11. The irradiation device of claim 7 , wherein the beam modulation instructions include a build file that defines build points of a build array to be irradiated to additively manufacture the three-dimensional objects. 12. The irradiation device of claim 7 , wherein respective ones of the plurality of modulation groups comprise a row or column of micromirror elements, and wherein respective ones of the plurality of modulation groups comprise a sub-array of micromirror elements, wherein a number of micromirror elements in respective ones of the plurality of modulation groups is determined based at least in part on one or more irradiation parameters associated with the plurality of combination zones respectively corresponding to the plurality of modulation groups, and wherein the one or more irradiation parameters comprises the intensity of irradiation to be imparted to the powder bed by the plurality of beam segments corresponding to a respective one of the plurality of combination zones. 13. The irradiation device of claim 7 , wherein the focusing lens assembly comprises one or more cylindrical lenses. 14. The irradiation device of claim 7 , wherein the focusing lens assembly comprises a first one or more lenses configured to focus the plurality of beam segments along a first axis, and wherein the first one or more lenses are configured to collimate the plurality of beam segments along a second axis. 15. The irradiation device of claim 7 , wherein the irradiation device comprises a plurality of optical modulators and a plurality of focusing lens assemblies respectively corresponding to respective ones of the plurality of optical modulators, wherein respective ones of the plurality of optical modulators and corresponding ones of the plurality of focusing lens assemblies respectively define a plurality of beam combination groups, the plurality of beam combination groups respectively configured to provide a plurality of beam segment-subsets with corresponding combination zones that exhibit a linear or curvilinear pattern, and wherein the plurality of beam combination groups comprises a first beam combination group and a second beam combination group, the first beam combination group configured to provide a first plurality of beam spots and the second beam combination group configured to provide a second plurality