Phonon generation in bulk material for manufacturing

What is claimed is: 1. A method of manufacturing, comprising: selectively forming an article of manufacture using focused excitation by a process comprising: generating vibrations in a base material disposed within a build chamber, wherein generating vibrations in the base material comprises directing an emission through a masking device to mask certain sections of the base material from being subjected to the emission, wherein the masking device comprises one or more screens having a matrix and a movable material, wherein the matrix is transmittive with respect to the emission and the movable material is substantially non-transmittive with respect to the emission; focusing the vibrations in a section of the base material; and controlling the focusing of the vibrations to cause the section of the base material to undergo a physical transformation to form at least a portion of the article of manufacture; and wherein directing the emission through the masking device comprises forming a pattern on the one or more screens corresponding to a portion of the article of manufacture using the movable material and directing the emission through the matrix while blocking the emission with the movable material wherein the emission is coherent light; wherein the masking device is configured to transduce the coherent light into a waveform; wherein focusing the vibrations on the section of the base material comprises adjusting the masking device to focus the waveform on a focal region corresponding to the section of the base material to undergo a physical transformation; and wherein the waveform is selected from the group consisting of infrasonic, sonic, and ultrasonic frequencies. 2. The method of claim 1 , wherein generating vibrations in the base material comprises directing the waveform into the base material to cause phonon propagation through a lattice of the section of the base material. 3. The method of claim 2 , wherein directing the waveform into the base material comprises directing a first waveform into a phononic or phoxonic crystal using an acoustic source, forming a second waveform from the first waveform in the phononic or phoxonic crystal, and directing the second waveform into the section of the base material. 4. The method of claim 3 , wherein forming the second waveform from the first waveform in the phononic or phoxonic crystal comprises directing the first waveform into a focusing region of the phononic or phoxonic crystal having a matrix and inclusions positioned within the matrix, the inclusions having a spatial periodicity corresponding to a desired bandgap in the second waveform. 5. The method of claim 1 , wherein the process comprises adjusting the pattern after the portion of the article of manufacture is formed, adjusting the section of the base material in which the vibrations are generated, and forming another portion of the article of manufacture using the adjusted pattern. 6. The method of claim 1 , wherein generating vibrations in the base material comprises producing a shock wave at a focal region in the base material, the shock wave resulting in heating, pressure, or both, that sinters the base material at the focal region. 7. The method of claim 1 , wherein controlling the focus of the vibrations to cause the section of the base material to undergo the physical transformation comprises increasing a frequency of oscillation within the base material to increase the temperature of the base material to a temperature suitable to cause the physical transformation. 8. The method of claim 7 , wherein the process comprises adjusting the frequency of oscillation within the base material of the article of manufacture to remove sections of the article of manufacture and thereby create patterns in the article of manufacture. 9. A method of manufacturing, comprising: selectively forming an article of manufacture using focused excitation by a process comprising: generating vibrations in a base material disposed within a build chamber; focusing the vibrations in a section of the base material; and controlling the focusing of the vibrations to cause the section of the base material to undergo a physical transformation to form at least a portion of the article of manufacture; and wherein generating vibrations in the base material comprises directing coherent light to a lens having one or more materials configured to transduce the coherent light into an ultrasonic wave, and directing the ultrasonic wave toward the base material, and wherein focusing the vibrations on the section of the base material comprises adjusting the lens to focus the ultrasonic wave on a focal region corresponding to the section.