Switchyard beam routing of patterned light for additive manufacturing

The invention claimed is: 1 . A switchyard beam routing system for additive manufacturing, comprising: an energy beam; a beam patterning unit to generate a two-dimensional patterned energy beam from the energy beam; a plurality of energy switching units to direct the two-dimensional patterned energy beam into a plurality of directed two-dimensional patterned energy beams; a plurality of energy steering units to receive and steer the plurality of directed two-dimensional patterned energy beams, and at least one powder bed to receive at least a portion of the directed two-dimensional patterned energy beams that are steered by the plurality of energy steering units, wherein at least one of the plurality of energy switching units is configured to selectively direct the two-dimensional patterned energy beam to at least two energy switching units by selectively polarizing the two-dimensional patterned energy beam into one of two polarization states, forming a switching hierarchy. 2 . The switchyard beam routing system of claim 1 , wherein the two-dimensional patterned energy beam preserves greater than 50% of angular power density and 75% of spatial etendue content of a two-dimensional patterned image generated at the beam patterning unit and received at the least one powder bed. 3 . The switchyard beam routing system of claim 1 , wherein at least some of the plurality of energy switching units are arranged in the switching hierarchy, and wherein at least two of the plurality of energy switching units are configured to direct a two-dimensional patterned energy beams therebetween. 4 . The switchyard beam routing system of claim 1 , wherein the energy beam comprises a laser beam, wherein the beam patterning unit contains at least one light valve configured to apply a first positive pattern passed by the light valve and a second negative pattern consisting of laser light rejected by the light valve, wherein the energy switching units direct two-dimensional patterned laser beams, and wherein the plurality of energy steering units receive the two-dimensional patterned laser beams. 5 . A switchyard beam routing system for additive manufacturing, comprising: an energy beam; a beam patterning unit to generate a two-dimensional patterned energy beam from the energy beam; a plurality of energy switching units to direct the two-dimensional patterned energy beam into a plurality of directed two-dimensional patterned energy beams; a plurality of energy steering units to receive and steer the plurality of directed two-dimensional patterned energy beams, and at least one powder bed to receive at least a portion of the directed two-dimensional patterned energy beams that are steered by the plurality of energy steering units, wherein at least some of the plurality of energy switching units are arranged in a switching hierarchy, and wherein at least two of the plurality of energy switching units are configured to selectively direct a two-dimensional patterned energy beams therebetween by selectively polarizing the two-dimensional patterned energy beam into one of two polarization states. 6 . The switchyard beam routing system of claim 5 , wherein the two-dimensional patterned energy beam preserves greater than 50% of angular power density and 75% of spatial etendue content of a two-dimensional patterned image generated at the beam patterning unit and received at the least one powder bed. 7 . The switchyard beam routing system of claim 5 , wherein at least one of the plurality of energy switching units is configured to direct the two-dimensional patterned energy beam to at least two energy switching units, forming the switching hierarchy. 8 . The switchyard beam routing system of claim 5 , wherein the energy beam comprises a laser beam, wherein the beam patterning unit contains at least one light valve configured to apply a first positive pattern passed by the light valve and a second negative pattern consisting of laser light rejected by the light valve, wherein the energy switching units direct two-dimensional patterned laser beams, and wherein the plurality of energy steering units receive the two-dimensional patterned laser beams. 9 . A switchyard beam routing system, comprising: an energy beam; a beam patterning unit to generate a two-dimensional patterned energy beam from the energy beam; a plurality of energy switching units to direct the two-dimensional patterned energy beam into a plurality of directed two-dimensional patterned energy beams, wherein at least one of the plurality of energy switching units is configured to selectively direct a two-dimensional patterned energy beam to at least two energy switching units by selectively polarizing the two-dimensional patterned energy beam into one of two polarization states, forming a switching hierarchy. 10 . The switchyard beam routing system of claim 9 , wherein at least two of the plurality of energy switching units are configured to direct a two-dimensional patterned energy beams therebetween. 11 . The switchyard beam routing system of claim 9 , further comprising a plurality of energy steering units to receive and direct the two-dimensional patterned energy beams, and at least one powder bed to receive at least a portion of the directed two-dimensional patterned energy beam from at least one of the plurality of energy steering units. 12 . The switchyard beam routing system of claim 9 , further comprising a plurality of energy steering units to receive and direct the two-dimensional patterned energy beams, and wherein at least one of the energy steering units further comprises movable mirrors. 13 . The switchyard beam routing system of claim 9 , wherein the energy beam comprises a laser beam, wherein the beam patterning unit contains at least one light valve configured to apply a first positive pattern passed by the light valve and a second negative pattern consisting of laser light rejected by the light valve, and wherein the energy switching units direct two-dimensional patterned laser beams.