Titus Morris Contact . . | MORRISTD@ORNL.GOV All Publications Ancilla-entangling Floquet kicks for accelerating quantum algorithms... Molecular Symmetry in VQE: A Dual Approach for Trapped-Ion Simulations of Benzene Characterizing and mitigating coherent errors in a trapped ion quantum processor using hidden inverses Quantum Computing Systems and Software for High-energy Physics Research Coupled-Cluster Calculations of Neutrinoless Double-β Decay in 48Ca Scalable quantum processor noise characterization Quantum chemistry as a benchmark for near-term quantum computers Simulations of subatomic many-body physics on a quantum frequency processor Subatomic Many-Body Physics Simulations on a Quantum Frequency Processor Discrepancy Between Experimental and Theoretical β-decay Rates Resolved from First Principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles... Discrepancy Between Experimental and Theoretical β-decay Rates Resolved from First Principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles... Discrepancy Between Experimental and Theoretical β-decay Rates Resolved from First Principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles... Discrepancy Between Experimental and Theoretical β-decay Rates Resolved from First Principles Discrepancy Between Experimental and Theoretical β-decay Rates Resolved from First Principles Discrepancy Between Experimental and Theoretical β-decay Rates Resolved from First Principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles Discrepancy between experimental and theoretical β-decay rates resolved from first principles How Robust is the N=34 Subshell Closure? First Spectroscopy of 52Ar Pagination Current page 1 Page 2 Next page ›â¶Äº Last page Last » Key Links Organizations Computing and Computational Sciences Directorate Computational Sciences and Engineering Division Quantum Information Science Section Quantum Computational Science Group
