Complex modality reactor for materials production and synthesis

What is claimed is: 1. A plasma reactor comprising: a first chamber having a rectangular cross-section and configured to receive microwave energy as a sinusoidal waveform; a rectangular-to-cylindrical portion coupled to the first chamber and configured to convert the microwave energy from the sinusoidal waveform to a radial waveform; a second chamber having a cylindrical cross-section coupled to the rectangular-to-cylindrical portion, the second chamber configured to produce a plasma plume in response to exposure of one or more process gases to the radial waveform of the microwave energy; and a multi-flow nozzle including a first inlet and a second inlet arranged in a concentric configuration. 2. The plasma reactor of claim 1 , wherein the microwave energy has an energy maxima at a radial center of the second chamber. 3. The plasma reactor of claim 1 , wherein the second chamber is configured to contain the plasma plume. 4. The plasma reactor of claim 1 , further comprising a gas-solid separator to separate carbonaceous materials from the plasma plume. 5. The plasma reactor of claim 1 , further comprising a pressure controller configured to regulate the flow of the process gases into the plasma reactor. 6. The plasma reactor of claim 1 , wherein a location of ignition of the plasma plume within the plasma reactor is based at least in part on the microwave energy. 7. The plasma reactor of claim 1 , further comprising a reactor control unit configured to control an ignition point of the plasma plume. 8. The plasma reactor of claim 1 , wherein a center portion of the first chamber is aligned with a center portion of the second chamber along a common vertical axis. 9. The plasma reactor of claim 1 , wherein the first chamber is narrower than the second chamber. 10. The plasma reactor of claim 1 , wherein the multi-flow nozzle allows the one or more process gases to enter the second chamber. 11. The plasma reactor of claim 1 , wherein the first and second inlets flow first and second respective process gases into the second chamber. 12. The plasma reactor of claim 1 , wherein the multi-flow nozzle is configured to direct the one or more process gases into the second chamber at one or more respective flow rates. 13. The plasma reactor of claim 1 , wherein the multi-flow nozzle is configured to flow the one or more process gases into the second chamber in an adjacent configuration. 14. The plasma reactor of claim 1 , wherein the multi-flow nozzle is formed from a material permitting unimpeded transmission of the microwave energy. 15. The plasma reactor of claim 1 , wherein the multi-flow nozzle comprises a mechanical pressure barrier preventing the plasma plume from entering the first chamber. 16. The plasma reactor of claim 1 , wherein at least one of the one or more process gases includes a hydrocarbon gas. 17. The plasma reactor of claim 1 , wherein the first chamber and the rectangular-to-cylindrical portion are arranged in a linear manner relative to each other. 18. A plasma reactor comprising: a first chamber having a rectangular cross-section and configured to receive microwave energy as a sinusoidal waveform; a rectangular-to-cylindrical portion coupled to the first chamber and configured to convert the microwave energy from the sinusoidal waveform to a radial waveform; a second chamber having a cylindrical cross-section coupled to the rectangular-to-cylindrical portion, the second chamber configured to produce a plasma plume in response to exposure of one or more process gases to the radial waveform of the microwave energy; and a multi-flow nozzle that allows the one or more process gases to enter the second chamber, wherein the multi-flow nozzle is configured to flow the one or more process gases into the second chamber in a concentric configuration. 19. The plasma reactor of claim 18 , wherein the multi-flow nozzle is configured to direct the one or more process gases into the second chamber at one or more respective flow rates. 20. The plasma reactor of claim 18 , wherein the multi-flow nozzle is configured to flow the one or more process gases into the second chamber in an adjacent configuration.