All-dielectric periodically modulated thin films enable high-contrast polarization control at normal incidence via polarization-dependent Fano resonances, with experimental contrast ratios up to 1:1000 and high laser damage threshold.
Effects of Configuration Interaction on Intensities and Phase Shifts
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For the Fano-Anderson model with Lorentzian spectral density, the TCL expansion converges within a radius set by the detuning-to-width ratio, and its second and fourth orders represent non-Markovianity differently as measured by Bures distance evolution.
Uniaxial pressure applied to α-SrCr₂O₄ shifts two-magnon Raman excitations in a manner consistent with decreased or increased magnetic anisotropy under tension or compression.
citing papers explorer
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Understanding all-dielectric periodically modulated coatings for normal-incidence polarization control
All-dielectric periodically modulated thin films enable high-contrast polarization control at normal incidence via polarization-dependent Fano resonances, with experimental contrast ratios up to 1:1000 and high laser damage threshold.
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Expansion of time-convolutionless non-Markovian quantum master equations: A case study using the Fano-Anderson model
For the Fano-Anderson model with Lorentzian spectral density, the TCL expansion converges within a radius set by the detuning-to-width ratio, and its second and fourth orders represent non-Markovianity differently as measured by Bures distance evolution.
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Tuning J$_1$-J$_2$ in Quasi-2D Triangular Lattice Antiferromagnet $\alpha$-SrCr$_2$O$_4$ via Uniaxial Pressure
Uniaxial pressure applied to α-SrCr₂O₄ shifts two-magnon Raman excitations in a manner consistent with decreased or increased magnetic anisotropy under tension or compression.