Adding a continuous bond energy ε to 2D site percolation shifts the threshold smoothly and drives the correlation-length exponent ν from 1/2 through 4/3 to 1, as shown by Monte Carlo simulations and real-space RG that also reveal an energy-weighted correlation length and antiferromagnetic ordering,
Kirkpatrick, Reviews of Modern Physics45, 574 (1973)
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Spatial inhomogeneity in electron-phonon coupling at interfaces renormalizes electronic and phonon spectra, redistributing the Eliashberg function to enhance effective coupling in metallic nanohybrids.
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Energy-Weighted Site Percolation in Two Dimensions
Adding a continuous bond energy ε to 2D site percolation shifts the threshold smoothly and drives the correlation-length exponent ν from 1/2 through 4/3 to 1, as shown by Monte Carlo simulations and real-space RG that also reveal an energy-weighted correlation length and antiferromagnetic ordering,
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Electron and phonon spectrum in a metallic nanohybrid
Spatial inhomogeneity in electron-phonon coupling at interfaces renormalizes electronic and phonon spectra, redistributing the Eliashberg function to enhance effective coupling in metallic nanohybrids.