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.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
verdicts
UNVERDICTED 2representative citing papers
Gate slots over 2DES support plasmon resonances at L = λ/8 + nλ/2 due to a -π/4 reflection phase shift at the gate edge, with weak leakage and up to 50% dipole-limit absorption.
citing papers explorer
-
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.
-
Unconventional quantization of 2D plasmons in cavities formed by gate slots
Gate slots over 2DES support plasmon resonances at L = λ/8 + nλ/2 due to a -π/4 reflection phase shift at the gate edge, with weak leakage and up to 50% dipole-limit absorption.