Unified theory predicts all-harmonic voltage responses for finite-length conductors in suspended or supported geometries, with length l setting the thermal-mass frequency scale ω_c = α/l² under weak environmental coupling.
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2 Pith papers cite this work. Polarity classification is still indexing.
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A two-scale analytical framework is derived showing nanomagnet chains under AC fields enter a collective heating regime with local temperature variations at the microkelvin level for realistic parameters.
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Unified 1D Theory and Design Principles for Harmonic Electrothermal Characterization of Nanoscale Conductors
Unified theory predicts all-harmonic voltage responses for finite-length conductors in suspended or supported geometries, with length l setting the thermal-mass frequency scale ω_c = α/l² under weak environmental coupling.
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Local-to-global heating crossover in chains of nanomagnets: A two-scale analytical framework
A two-scale analytical framework is derived showing nanomagnet chains under AC fields enter a collective heating regime with local temperature variations at the microkelvin level for realistic parameters.