Additive manufacturing system and method

The invention claimed is: 1. An additive manufacturing system, comprising: a first laser configured to emit a light beam at a first wavelength; a second laser configured to emit a light beam at a second wavelength different from the first wavelength; beam shaping optics that form a single beam, the beam shaping optics including at least one wavelength filter configured to pass light of the first wavelength and reflect light of the second wavelength in a common beam; and a light patterning unit configured to receive the common beam and form a two-dimensional patterned beam, wherein the beam shaping optics further comprise a valve configured to apply a pattern on the common beam of light to provide the two-dimensional patterned beam of light directable toward a predefined location, and wherein the valve is optically addressable to form a two-dimensional pattern. 2. The additive manufacturing system of claim 1 , wherein the beam shaping optics further comprise transmissive optics. 3. The additive manufacturing system of claim 1 , wherein the beam shaping optics further comprise at least one of reflective and diffractive optics. 4. The additive manufacturing system of claim 1 , wherein the beam shaping optics further comprise more than three lasers and combine at least three wavelengths of light. 5. The additive manufacturing system of claim 1 , further comprising: a powder bed as the predefined location. 6. The additive manufacturing system of claim 5 , wherein the beam shaping optics further comprise an image relay to receive the two-dimensional patterned beam and focus it as a two-dimensional image on the powder bed. 7. The additive manufacturing system of claim 5 , further comprising: a plurality of lens assemblies comprising swappable portions configured to provide a plurality of magnification ratios that proportionally increase or decrease a size of an image of an incident light; and a mechanical assembly capable of selecting one of the lens assemblies to provide one of the magnification ratios to convert a first image of the incident light to a second image of the incident light according to the one of the magnification ratios. 8. The additive manufacturing system of claim 7 , further comprising: a rejected energy handling unit, wherein the light patterning unit is further configured to reject energy not required to form the two-dimensional patterned beam, and wherein the rejected energy handling unit is configured to reuse the rejected energy. 9. The additive manufacturing system of claim 8 , further comprising: a build platform gantry; and a final beam steering device mounted on the build platform gantry and to direct the light emanating from the beam shaping optics such that the two-dimensional patterned beam of light forms at a location of the powder bed holding a powdered material supported by the build platform gantry. 10. An additive manufacturing system, comprising: a high energy photon source configured to produce a beam; a reflective patterning unit configured to receive the beam and reflect a two-dimensional patterned beam, the reflective patterning unit configured to reject energy not required to form the two-dimensional patterned beam; an image relay configured to receive the two-dimensional patterned beam and focus it as a two-dimensional image on a powder bed; and a rejected energy handling unit configured to reuse the rejected energy. 11. The additive manufacturing system of claim 10 , wherein the reflective patterning unit comprises a spatial polarization valve that is optically addressable to form a two-dimensional pattern. 12. The additive manufacturing system of claim 10 , wherein the high energy photon source further comprises multiple semiconductor lasers. 13. The additive manufacturing system of claim 10 , wherein the reflective light patterning unit further comprises a highly transmissive layer, a twisted nematic (TN) liquid crystal layer, and a photoconductor layer. 14. The additive manufacturing system of claim 10 , further comprising: passive or active cooling elements configured to remove heat from the reflective patterning unit. 15. An additive manufacturing apparatus, comprising: a first optical assembly configured to receive multiple beams of light including at least the one or more beams of light from the one or more light sources, the first optical assembly further configured to multiplex the multiple beams of light; an optical device configured to reshape and blend the multiple beams of light to provide a first beam of light; a spatial polarization valve configured to apply a spatial polarization pattern on the first beam of light to provide a second beam of light directable toward a powder bed, wherein the spatial polarization valve is optically addressable to form a two-dimensional pattern; a polarizer configured to split polarization states of the second beam of light to reflect a third beam of light; and a second optical assembly configured to reshape the third beam of light into a fourth beam of light, rotate its polarization state to that of the first beam of light, the second optical assembly further configured to introduce the fourth beam of light to the first optical assembly as one of the multiple beams of light to result in a fifth beam of light that is transmitted through and not reflected by the polarizer.