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More Efficient Solar Batteries with Quantum Computing

More Efficient Solar Batteries with Quantum Computing — More Efficient Solar Cells with Quantum Computing – Implementation of two Fermi-Hubbard samples using a qubit order. (a) 1 8 and (b) 2 4 samples, respectively. Each region is coded using two qubits in each scenario. The following model describes the interactions between qubits in variational layers. 1 to 8: green, red (in situ), blue (FSWAP) and red (vert1) (vert2). Red (horiz + FSWAP), green (vert), blue (FSWAP), red (in situ), blue (FSWAP), red (horiz + FSWAP), green (vert). The parity of the row index affects the vertical interaction parameters for the 2 4 matrix. Unused qubits in the 23 qubit Rainbow chip are shown with gray circles. Nature Communications (2022). DOI: 10.1038/s41467-022-33335-4

More Efficient Solar Batteries with Quantum Computing

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