Dynamically reconfigurable acoustic diffractive device

What is claimed is: 1. An apparatus, comprising: an acoustic source for directing an acoustic wave towards a workspace; a variable acoustic diffractive device positioned in a path of the acoustic wave between the acoustic source and the workspace, the variable acoustic diffractive device comprising an array of elements, each element having independently variable acoustic properties; and an electronic controller in communication with the acoustic source and the variable acoustic diffractive device, the electronic controller programmed to supply signals to cause the acoustic source to produce the acoustic wave and the variable acoustic diffractive device to diffract the acoustic wave from the acoustic source to provide non-uniform acoustic forces in a medium located in the workspace. 2. The apparatus of claim 1 , wherein the acoustic forces from the diffracted acoustic wave in the workspace cause a non-uniform distribution of the medium in accordance with a predetermined pattern. 3. The apparatus of claim 1 , wherein the variable acoustic diffractive device comprises an electrorheological fluid and an array of electrodes arranged to independently provide an electric field to a corresponding portion of the electrorheological fluid in response to the signals from the electronic controller. 4. The apparatus of claim 1 , wherein the variable acoustic diffractive device comprises a non-Newtonian fluid and an array of actuators arranged to independently provide a mechanical stress to a corresponding portion of the non-Newtonian fluid in response to the signals from the electronic controller. 5. The apparatus of claim 1 , wherein the variable acoustic diffractive device comprises two or more microfluidic channels and a pump arranged to move a fluid into or out of a selected microfluidic channel in response to the signals from the electronic controller. 6. The apparatus of claim 1 , wherein the workspace is a plane. 7. The apparatus of claim 1 , further comprising an imaging device arranged to image the workspace while the non-uniform acoustic forces are provided in the medium located in the workspace. 8. The apparatus of claim 1 , further comprising a receptacle for the medium arranged to position the medium in the workspace. 9. The apparatus of claim 8 , further comprising an actuator arranged to vary a relative position between the receptacle and the acoustic source thereby moving the medium relative to the workspace, the actuator being in communication with the electronic controller which coordinates varying the relative position between the receptacle and the acoustic source with variations of the predetermined pattern. 10. The apparatus of claim 1 , wherein the electronic controller is programmed to cause the variable acoustic diffractive device to diffract the acoustic wave from the acoustic source so that the non-uniform acoustic forces trap an object in the medium located in the workspace. 11. The apparatus of claim 10 , wherein the electronic controller is programmed to cause the variable acoustic diffractive device to vary the non-uniform acoustic forces to move the trapped object in the medium located in the workspace. 12. The apparatus of claim 1 , wherein the medium is a precursor material curable upon exposure to a curing agent. 13. The apparatus of claim 12 , further comprising a curing device positioned to supply the curing agent to the workspace. 14. The apparatus of claim 12 , wherein the curing device comprises a radiation source or a reagent source. 15. A method for generating a non-uniform distribution of a medium, comprising: directing an acoustic wave to a variable acoustic diffractive device, the variable acoustic diffractive device comprising an array of elements, each element having independently variable acoustic properties; diffracting the acoustic wave using the variable acoustic diffractive device to provide a time-varying diffracted acoustic wave in a workspace; and subjecting the medium to the time-varying diffracted acoustic wave in the workspace to provide time-varying non-uniform acoustic forces to generate the non-uniform distribution of the medium. 16. The apparatus of claim 15 , wherein the acoustic forces from the diffracted acoustic wave in the workspace cause the non-uniform distribution of the medium in accordance with a predetermined pattern. 17. The apparatus of claim 15 , wherein the variable acoustic diffractive device comprises an electrorheological fluid and an array of electrodes arranged to independently provide an electric field to a corresponding portion of the electrorheological fluid in response to signals from an electronic controller. 18. The apparatus of claim 15 , wherein the variable acoustic diffractive device comprises a non-Newtonian fluid and an array of actuators arranged to independently provide a mechanical stress to a corresponding portion of the non-Newtonian fluid in response to signals from an electronic controller. 19. The apparatus of claim 15 , wherein the variable acoustic diffractive device comprises two or more microfluidic channels and a pump arranged to move a fluid into or out of a selected microfluidic channel in response to signals from an electronic controller. 20. A 3D printing system, comprising: an acoustic source for directing an acoustic wave towards a workspace; a medium located in the workspace, the medium comprising a precursor material curable upon exposure to a curing agent; a curing device positioned to supply the curing agent to the workspace; a variable acoustic diffractive device positioned in a path of the acoustic wave between the acoustic source and the workspace, the variable acoustic diffractive device comprising an array of elements, each element having independently variable acoustic properties; and an electronic controller in communication with the acoustic source, the variable acoustic diffractive device, and the curing device, the electronic controller being programmed to: supply first signals to the acoustic source to cause the acoustic source to produce the acoustic wave; supply second signals to the variable acoustic diffractive device to cause the variable acoustic diffractive device to diffract the acoustic wave from the acoustic source to provide a non-uniform distribution of the medium in accordance with a predetermined pattern; and supply third signals to the curing device to cause the curing device to supply the curing agent to the workspace to cure at least a portion of the medium in the predetermined pattern. 21. A method for generating a non-uniform distribution of a medium, comprising: directing an acoustic wave to a variable acoustic diffractive device; diffracting the acoustic wave using the variable acoustic diffractive device to provide a time-varying diffracted acoustic wave in a workspace; and subjecting the medium to the time-varying diffracted acoustic wave in the workspace to provide time-varying non-uniform acoustic forces to generate the non-uniform distribution of the medium, wherein the variable acoustic diffractive device comprises an electrorheological fluid and an array of electrodes arranged to independently provide an electric field to a corresponding portion of the electrorheological fluid in response to signals from an electronic controller.