Differential Mueller matrix decomposition retrieves intrinsic polarization anisotropies in nanophotonic systems by separating coupled effects that produce artifacts in conventional ellipsometry and chiroptical measurements.
Towards higher-dimensional structured light.Light: Science & Applications, 11(1):205
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Higher-order Poincaré modes carrying tunable Pancharatnam topological charge enable free-space paraxial control of spin-orbit interaction via differential Gouy phases and beam divergence.
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Retrieving intrinsic polarization anisotropies of nanostructures using differential Mueller matrix polarimetry
Differential Mueller matrix decomposition retrieves intrinsic polarization anisotropies in nanophotonic systems by separating coupled effects that produce artifacts in conventional ellipsometry and chiroptical measurements.
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Topological Control of Chirality and Spin with Structured Light
Higher-order Poincaré modes carrying tunable Pancharatnam topological charge enable free-space paraxial control of spin-orbit interaction via differential Gouy phases and beam divergence.