PAS method estimates extreme non-linear wave impact loads within 2-15% of brute-force Monte Carlo results while using only 1-3% of the high-fidelity simulation time.
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4 Pith papers cite this work. Polarity classification is still indexing.
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UrQMD plus coalescence predicts measurable yields of hypernuclei such as 3_Lambda H, 4_Lambda H, Xi N and Xi NN in p+Au reactions at FAIR energies.
UrQMD model simulations of K* resonances in Ar+Sc collisions at SPS energies capture essential features but underpredict the strong suppression observed in central NA61/SHINE data.
The ISO-BREAK 25 workshop report summarizes evidence and discussions on unexplained isospin symmetry breaking in nucleus-nucleus collisions and sets priorities for further work.
citing papers explorer
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Design loads for wave impacts -- introducing the Probabilistic Adaptive Screening (PAS) method for predicting extreme non-linear loads on maritime structures
PAS method estimates extreme non-linear wave impact loads within 2-15% of brute-force Monte Carlo results while using only 1-3% of the high-fidelity simulation time.
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Hypernucleus production in p+Au reactions at the FAIR facility
UrQMD plus coalescence predicts measurable yields of hypernuclei such as 3_Lambda H, 4_Lambda H, Xi N and Xi NN in p+Au reactions at FAIR energies.
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$K^*(892)$ Resonance Suppression in Ar+Sc Collisions at SPS Energies
UrQMD model simulations of K* resonances in Ar+Sc collisions at SPS energies capture essential features but underpredict the strong suppression observed in central NA61/SHINE data.
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Isospin-symmetry violation -- kaons and beyond (ISO-BREAK 25: summary and outlook)
The ISO-BREAK 25 workshop report summarizes evidence and discussions on unexplained isospin symmetry breaking in nucleus-nucleus collisions and sets priorities for further work.