PEAC extracts parameters from amplitude collapse in correlated matter-wave interferometers, yielding lower bias than conventional methods for perfectly correlated signals.
Molecular ion-pair states in ungerade h2.Phys
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Electron impact on OCS produces two ion-pair dissociation pathways through hybrid Rydberg-ion-pair superexcited states, with fragment angular distributions showing beta greater than 1 and energy-dependent partial wave shifts.
PINNs combined with Magnus expansion learn scheduling functions and adiabatic gauge potentials that yield higher normalized QFI than Euler-Lagrange baselines in nearest-neighbor, dipolar, and trapped-ion spin models up to six qubits.
citing papers explorer
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Parameter Estimation from Amplitude Collapse in Correlated Matter-Wave Interference
PEAC extracts parameters from amplitude collapse in correlated matter-wave interferometers, yielding lower bias than conventional methods for perfectly correlated signals.
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Electron-Impact Quasi-Resonant Ion-Pair Dissociation of OCS: A Velocity Slice Imaging Study with Partial Wave Analysis
Electron impact on OCS produces two ion-pair dissociation pathways through hybrid Rydberg-ion-pair superexcited states, with fragment angular distributions showing beta greater than 1 and energy-dependent partial wave shifts.
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Physics-Informed Neural Networks for Maximizing Quantum Fisher Information in Time-Dependent Many-Body Systems
PINNs combined with Magnus expansion learn scheduling functions and adiabatic gauge potentials that yield higher normalized QFI than Euler-Lagrange baselines in nearest-neighbor, dipolar, and trapped-ion spin models up to six qubits.