📝 SummarXiv

Abstract

We report accurate quantum simulations of medium-mass atomic nuclei -including oxygen, calcium, and nickel- on the RIKEN-Quantinuum Reimei trapped-ion quantum computer, achieving sub-percent accuracy. Using a symmetry-aware pair-unitary coupled-cluster doubles (pUCCD) ansatz implemented with a hard-core-boson mapping, and with particle-number-restoring post-selection, our ground-state energy estimates agree with noise-free statevector simulations and with exact diagonalization results on the order of 0.1% relative error. These experiments establish a new benchmark for quantum simulations of strongly correlated nuclear systems on real hardware and demonstrate the near-term potential of high-fidelity trapped-ion platforms for nuclear-structure calculations.