MLIP simulations show that Mn promotes incoherent interfaces with the G-phase leading to film-like GB precipitates, while Ni2Si forms irregular shapes due to coherent interfaces that develop repulsive regions.
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Pairing square-root-area-weighted vacuum perturbations with full-area-weighted resonant fields produces a coupling matrix whose singular values and reconstructed real-space patterns are invariant to coordinate choice.
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Precipitate phase selection and grain boundary morphology in Cu-Ni-Si-Mn alloys: A machine-learning interatomic potential study
MLIP simulations show that Mn promotes incoherent interfaces with the G-phase leading to film-like GB precipitates, while Ni2Si forms irregular shapes due to coherent interfaces that develop repulsive regions.
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Coordinate-invariant flux-surface Fourier analysis in tokamaks
Pairing square-root-area-weighted vacuum perturbations with full-area-weighted resonant fields produces a coupling matrix whose singular values and reconstructed real-space patterns are invariant to coordinate choice.