Nonlocal conductivity in finite carbon nanotubes produces optical pulling forces in certain frequency bands, demonstrated by integral-equation solutions and an approximate analytical formula that matches numerics.
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Hann-window filtering of synthetic complex-frequency spectra suppresses 1/t temporal artifacts and improves plasmonic loss compensation efficiency by nearly a factor of three over rectangular windows.
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Optical Pulling Force in Carbon Nanotubes: Manifestation of Nonlocal Conductivity
Nonlocal conductivity in finite carbon nanotubes produces optical pulling forces in certain frequency bands, demonstrated by integral-equation solutions and an approximate analytical formula that matches numerics.
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Spectral window engineering for synthetic wave compensation of plasmonic loss
Hann-window filtering of synthetic complex-frequency spectra suppresses 1/t temporal artifacts and improves plasmonic loss compensation efficiency by nearly a factor of three over rectangular windows.