Synthesis and processing of pure and NV nanodiamonds and other nanostructures for quantum computing and magnetic sensing applications

What is claimed is: 1. A quantum computer comprising: a quantum register with a size of at least two qubits, each of the at least two qubits comprising a different one of a plurality of NV-doped nanodiamonds deterministically placed on a substrate; each of the plurality of NV-doped nanodiamonds comprising one NV center and one carbon-13 atom; each of the plurality of NV-doped nanodiamonds being epitaxial with the substrate, the substrate being planar matching with diamond; and each of the plurality of NV-doped nanodiamonds having sharp transitions between NV − and NV 0 . 2. The quantum computer of claim 1 , wherein the transitions are controllable electrically by current and/or optically by laser illumination. 3. The structure of claim 1 , wherein the plurality of NV-doped diamonds have a same orientation. 4. A structure comprising: a substrate; and a plurality of NV-doped diamonds deterministically placed on the substrate, each of the plurality NV-doped diamonds comprising an NV center and a carbon-13 atom. 5. The structure of claim 4 , wherein the plurality of NV-doped diamonds have a same orientation. 6. The structure of claim 4 , wherein the plurality of NV-doped diamonds are epitaxial with the substrate; and wherein the substrate is planar matching with diamond. 7. The structure of claim 4 , wherein the plurality of NV-doped diamonds has concentrations of NV-dopants that exceed thermodynamic solubility limits, the NV-dopants comprising carbon-13. 8. The structure of claim 4 , wherein each of the plurality of NV-doped diamonds comprises one NV center and one carbon-13 atom. 9. The structure of claim 4 , wherein each of the NV-doped diamonds has sharp transitions between NV − and NV 0 . 10. The structure of claim 4 , wherein each of the NV-doped diamonds has transitions between NV − and NV 0 , the transitions being controllable electrically and/or optically by laser illumination. 11. NV-doped diamond having concentrations of NV-dopants that exceed thermodynamic solubility limits, the NV-dopants comprising carbon-13. 12. The NV-doped diamond of claim 11 , wherein the NV-doped diamond comprises a plurality of NV-doped nanodiamonds each having a same orientation. 13. The NV-doped diamond of claim 11 , wherein the NV-doped diamond comprises one or more NV-doped nanodiamonds that are epitaxial with a substrate; and wherein the substrate is planar matching with diamond. 14. The NV-doped diamond of claim 11 , wherein the NV-doped diamond comprises one NV center complex, the NV center complex comprising one NV center and one carbon-13 atom. 15. The NV-doped diamond of claim 11 , wherein the NV-doped diamond comprises one or more NV-doped nanodiamonds each comprising one NV center complex that includes one NV center and one carbon-13 atom. 16. The NV-doped diamond of claim 11 , wherein the NV-doped diamond has sharp transitions between NV − and NV 0 . 17. The NV-doped diamond of claim 11 , wherein the NV-doped diamond has transitions between NV − and NV 0 , the transitions being controllable electrically and/or optically by laser illumination. 18. A quantum computer comprising the structure of claim 4 .