Multi-beam resin curing system and method for whole-volume additive manufacturing

We claim: 1. A multi-beam resin curing method for whole-volume additive manufacturing of an object, comprising: illuminating a spatial light modulator (SLM) with a light beam from a light source; controlling the SLM to impress an image onto the light beam so as to produce a modulated light beam; and using projection optics to produce at least two sub-image beams from the modulated light beam with each sub-image beam having a 2D intensity profile corresponding to a section of the image, and optically transporting the at least two sub-image beams independently of each other into a bath containing a photosensitive resin so as to project the 2D intensity profile of the at least two each sub-image beam to pass through a volume of the photosensitive resin so that the projected 2D intensity profiles transversely intersect each other in the volume of the photosensitive resin bath to form a 3D pattern which simultaneously cures select volumetric regions of the volume of the photosensitive resin and thereby forms the object. 2. The multi-beam resin curing method of claim 1 , wherein the SLM is controlled to impress a phase profile of the image onto the light beam so as to produce the modulated light beam as a phase-modulated light beam; and wherein the projection optics is used to produce the at least two sub-image beams by deconvolving the phase-modulated light beam into an intensity-modulated light beam having an intensity profile corresponding to all sections of the image and dividing a cross-section of the intensity-modulated light beam. 3. The multi-beam resin curing method of claim 1 , wherein the SLM is adapted to impress an intensity profile corresponding to all subsections of the image onto the light beam so as to produce the modulated light beam as an intensity-modulated light beam; and wherein the projection optics is adapted to produce the at least two sub-image beams by dividing a cross-section of the intensity-modulated light beam into the at least two sub-image beams. 4. The multi-beam resin curing method of claim 1 , wherein the 2D intensity profiles of the at least two sub-image beams are projected to intersect substantially orthogonal to each other. 5. A multi-beam resin curing method for whole-volume additive manufacturing of an object, comprising: illuminating a spatial light modulator (SLM) with a laser beam from a single mode laser source; controlling the SLM to impress a phase profile of an image onto the laser beam so as to produce a phase-modulated laser beam; and using projection optics to deconvolve the phase-modulated laser beam into an intensity-modulated laser beam, and to produce at least two sub-image beams from the intensity-modulated laser beam with each sub-image beam having a 2D intensity profile corresponding to a section of the image, and optically transporting the at least two sub-image beams independently of each other into a bath containing a photosensitive resin so as to project the 2D intensity profile of each sub-image beam to pass through a volume of the photosensitive resin so that the projected 2D intensity profiles transversely intersect each other in the volume of the photosensitive resin bath to form a 3D pattern which simultaneously cures select volumetric regions of the volume of the photosensitive resin and thereby forms the object.