The work generalizes RL-CQE to excited states and time evolution via adaptive operator selection and a constant-scaling ansatz, reporting chemical accuracy on chemical systems with compact representations.
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Resource estimates for quantum simulation of pionless and pionful nuclear lattice EFTs, including time evolution and energy estimation, with new error bounds from symmetries and locality yielding orders-of-magnitude improvements for the pionless case.
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Reinforcement Learning Assisted Quantum Simulation of Many-Body Excited States and Real-Time Dynamics
The work generalizes RL-CQE to excited states and time evolution via adaptive operator selection and a constant-scaling ansatz, reporting chemical accuracy on chemical systems with compact representations.
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Quantum Algorithms for Simulating Nuclear Effective Field Theories
Resource estimates for quantum simulation of pionless and pionful nuclear lattice EFTs, including time evolution and energy estimation, with new error bounds from symmetries and locality yielding orders-of-magnitude improvements for the pionless case.