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Domain decomposition method for electromagnetic scattering problems: application to EUV lithography
(2005)
Evaluation of EUV scatterometry for CD characterization of EUV masks using rigorous FEM-simulation
(2008)
A rigorous finite-element domain decomposition method for electromagnetic near field simulations
(2008)
Finite-element simulations of light propagation through subwavelength apertures in metal films
(2009)
3D Finite-Element Simulations of Enhanced Light Transmission Through Arrays of Holes in Metal Films
(2009)
Finite-element based electromagnetic field simulations: Benchmark results for isolated structures
(2013)
Boosting the photon-extraction efficiency of nanophotonic structures by deterministic microlenses
(2014)
Adaptive sampling strategies for effcient parameter scans in nano-photonic device simulations
(2014)
High-speed modulation, wavelength, and mode control in vertical-cavity surface-emitting lasers
(2015)
The optical chirality density is a valuable tool in locally characterizing chiral electromagnetic near-fields. However, how this quantity could translate into the far-field is not well understood. Here, we formulate a far-field
interpretation of optical chirality by investigating its conservation law in isotropic media in analogy to Poynting’s Theorem. We define the global chirality and find that lossy materials, in particular plasmonic nanostructures, can act as chirality generators. This can enable chiral sensing applications at the single molecule level.