In the Ising-like triangular antiferromagnet Er7TaO12, long-range magnetic order forms on cooling then melts into short-range correlations at lower temperature, realizing a spin analog of the Pomeranchuk effect.
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Static heterogeneity in 2D molecular diffusion produces the same apparent truncated power-law inter-event times (alpha ~1) seen in human bursty dynamics, showing the scaling is an artifact of tip-induced variations confined to finite time windows.
SpinDMFT enables accurate first-principles simulations of spin diffusion in static solids, producing zero-quantum spectra that match experimental data for two test substances.
citing papers explorer
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Melting upon cooling in a quantum magnet
In the Ising-like triangular antiferromagnet Er7TaO12, long-range magnetic order forms on cooling then melts into short-range correlations at lower temperature, realizing a spin analog of the Pomeranchuk effect.
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Static heterogeneity generates apparent universality in first-passage bursty dynamics
Static heterogeneity in 2D molecular diffusion produces the same apparent truncated power-law inter-event times (alpha ~1) seen in human bursty dynamics, showing the scaling is an artifact of tip-induced variations confined to finite time windows.
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First-principles simulation of spin diffusion in static solids using dynamic mean-field theory
SpinDMFT enables accurate first-principles simulations of spin diffusion in static solids, producing zero-quantum spectra that match experimental data for two test substances.