Anharmonic calculations show random CoCrNi ISFE decreases and stays negative with temperature while LCO ISFE stays positive from 0-1000 K, with MD confirming unbounded vs finite dislocation dissociation.
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5 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.mtrl-sci 5years
2026 5verdicts
UNVERDICTED 5representative citing papers
Co/Pt heterostructures show room-temperature magnon-phonon transduction through resonant standing shear waves, marked by extended FMR linewidths and reduced amplitudes.
Hybrid QM/ML forcefield framework couples DFT with MLIPs to enable scalable, chemically accurate simulations of solute-dislocation interactions, demonstrated on Sn/Fe segregation in Zr and magnetic effects in steel.
Hybrid TTM-MD simulations of gold thin films show microstructure configuration and topology dominate over grain size and orientation in controlling laser-induced melting and expansion, with tensile stresses increasing and compressive stresses decreasing deformation.
MD simulations of HCP Ti compression show elastic properties independent of size and rate while plastic deformation exhibits strong size-rate coupling, with larger systems yielding more stable dislocation activity.
citing papers explorer
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Finite Temperature Stacking Fault Stability in Random and Locally Ordered CoCrNi beyond the Harmonic Approximation
Anharmonic calculations show random CoCrNi ISFE decreases and stays negative with temperature while LCO ISFE stays positive from 0-1000 K, with MD confirming unbounded vs finite dislocation dissociation.
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Room-temperature magnon-phonon transduction in high-damping Co/Pt structures
Co/Pt heterostructures show room-temperature magnon-phonon transduction through resonant standing shear waves, marked by extended FMR linewidths and reduced amplitudes.
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A Hybrid Quantum Mechanics Machine Learning Forcefield (QM/ML) Framework for Accurate Solute-Dislocation Interaction Simulations
Hybrid QM/ML forcefield framework couples DFT with MLIPs to enable scalable, chemically accurate simulations of solute-dislocation interactions, demonstrated on Sn/Fe segregation in Zr and magnetic effects in steel.
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Delineating the interplay effects of microstructure topology and residual stresses in ultrafast laser irradiated thin films
Hybrid TTM-MD simulations of gold thin films show microstructure configuration and topology dominate over grain size and orientation in controlling laser-induced melting and expansion, with tensile stresses increasing and compressive stresses decreasing deformation.
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Uniaxial compression of crystalline HCP titanium: an atomistic modelling study of size effects
MD simulations of HCP Ti compression show elastic properties independent of size and rate while plastic deformation exhibits strong size-rate coupling, with larger systems yielding more stable dislocation activity.