>Use Quantum chemistry software (Gaussian, ORCA, NWChem) and molecular dynamics and DFT (Density Functional Theory) to model excitons and their interactions with carbon lattices (graphene, cyclocarbon, CNTs). Exciton modeling focuses on electron-hole pairs and their behavior in semiconductors or molecular systems—exactly what you’d want for a quantum material.>Once you have a theoretical design, you can take it to labs that offer Molecular Beam Epitaxy (MBE), Chemical Vapor Deposition (CVD) and 3D nanoscale printing (like focused ion beam or electron-beam lithography) and they could potentially fabricate a hybrid exciton-carbon structure—though it’s extremely challenging, even for professional labs. The material would likely be experimental and extremely sensitive.>With this you could make room-temperature qubits, integrate them into optical or solid-state quantum devices, avoid the extreme cryogenics required for superconducting qubits and you could scale it to a smartphone.>Then you can bitmine on thousands or millions of qubits, and if you used neglectrons - infinite amounts.>Get rich.
>>106444332>quantum computer>Quantum chemistry softwarechoose one nigger
