First quantum simulation of conical intersections in cytosine via CQE and VQD on a noisy superconducting quantum computer, with accuracy compared to exact diagonalization.
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Optimized q-sc-EOM on quantum hardware yields accurate excited-state energies for challenging molecular bond-breaking cases after reducing measurement scaling to O(N^5) and applying readout and symmetry error mitigation.
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Characterizing conical intersections of nucleobases on quantum computers
First quantum simulation of conical intersections in cytosine via CQE and VQD on a noisy superconducting quantum computer, with accuracy compared to exact diagonalization.
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Molecular Excited States using Quantum Subspace Methods: Accuracy, Resource Reduction, and Error-Mitigated Hardware Implementation of q-sc-EOM
Optimized q-sc-EOM on quantum hardware yields accurate excited-state energies for challenging molecular bond-breaking cases after reducing measurement scaling to O(N^5) and applying readout and symmetry error mitigation.