Photoluminescence spectral analysis of NV centers, calibrated with DFT, determines the Fermi energy in diamond samples.
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7 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 7representative citing papers
Magnetic field suppresses phonon-magnon scattering in gadolinium, producing measurable room-temperature thermal switching of lattice thermal conductivity.
In spin-1/2 BECs, phonon and particle scattering from magnetic domain walls depends solely on the total twist angle Θ, with a threshold at the Zeeman energy separating regimes and tunable transition probabilities.
Ab initio VDMC calculations of two-electron scattering in the uniform electron gas yield Landau parameters showing a density-driven underscreening-to-overscreening crossover and an sKO+ ansatz that quantitatively matches measured thermal resistivities in Al, Na, K, and Rb.
The boson peak arises from accumulation of vibrational spectral weight in a narrow frequency window that is only weakly dependent on wavevector, manifesting as a flat band in the dynamical structure factor rather than a propagating excitation.
NCL crystals exhibit boson-peak-like glassy anomalies from low-energy optical phonons and anomalous linear-T resistivity explained by electron scattering off overdamped phonons.
Silver chromate surface stability is governed by chromium-oxygen cluster coordination, with Wulff constructions revealing morphology shifts under varying silver and oxygen chemical potentials.
citing papers explorer
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Determination of the Fermi Energy of Diamond using Photoluminescence Spectral Analysis
Photoluminescence spectral analysis of NV centers, calibrated with DFT, determines the Fermi energy in diamond samples.
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Room-temperature Magnetic Thermal Switching by Suppressing Phonon-Magnon Scattering
Magnetic field suppresses phonon-magnon scattering in gadolinium, producing measurable room-temperature thermal switching of lattice thermal conductivity.
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Scattering Problem in Bose-Einstein Condensates with Magnetic Domain Wall
In spin-1/2 BECs, phonon and particle scattering from magnetic domain walls depends solely on the total twist angle Θ, with a threshold at the Zeeman energy separating regimes and tunable transition probabilities.
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Two-Electron Correlations in the Metallic Electron Gas
Ab initio VDMC calculations of two-electron scattering in the uniform electron gas yield Landau parameters showing a density-driven underscreening-to-overscreening crossover and an sKO+ ansatz that quantitatively matches measured thermal resistivities in Al, Na, K, and Rb.
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A flat-band perspective on the boson peak in amorphous solids
The boson peak arises from accumulation of vibrational spectral weight in a narrow frequency window that is only weakly dependent on wavevector, manifesting as a flat band in the dynamical structure factor rather than a propagating excitation.
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Glass-like anomalies and unconventional thermoelectric transport in chimney ladder crystals
NCL crystals exhibit boson-peak-like glassy anomalies from low-energy optical phonons and anomalous linear-T resistivity explained by electron scattering off overdamped phonons.
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Understanding oxide surface stability: Theoretical insights from silver chromate
Silver chromate surface stability is governed by chromium-oxygen cluster coordination, with Wulff constructions revealing morphology shifts under varying silver and oxygen chemical potentials.