2022
DOI: 10.1088/1367-2630/ac57e8
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Multidimensional measures of electromagnetic chirality and their conformal invariance

Abstract: Proper assignment of left- and right-handed labels to general chiral objects is known to be a theoretically unfeasible problem. Attempts to utilize a pseudoscalar function to distinguish enantiomers face two unavoidable difficulties: false chiral zeros and unhanded chiral states. In here, we demonstrate how both of these problems can be solved in the context of light-matter interactions. First, we introduce a two-dimensional quantity called complex electromagnetic chirality that solves the problem of false chi… Show more

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Cited by 4 publications
(2 citation statements)
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“…If this is not the case, then the object is em-chiral. This notion of em-chirality is consistent with the traditional geometric concept of chirality, but in contrast to the geometric chirality of an object, its em-chirality can be quantified directly in terms of the object's interaction with electromagnetic waves using em-chirality measures [7,16,45]. These em-chirality measures are bounded from below by zero and from above by the total interaction cross-section of the scattering object, which makes them well-suited objective functionals for a shape optimization.…”
Section: Introductionmentioning
confidence: 56%
See 1 more Smart Citation
“…If this is not the case, then the object is em-chiral. This notion of em-chirality is consistent with the traditional geometric concept of chirality, but in contrast to the geometric chirality of an object, its em-chirality can be quantified directly in terms of the object's interaction with electromagnetic waves using em-chirality measures [7,16,45]. These em-chirality measures are bounded from below by zero and from above by the total interaction cross-section of the scattering object, which makes them well-suited objective functionals for a shape optimization.…”
Section: Introductionmentioning
confidence: 56%
“…In this section we briefly summarize the concept of electromagnetic chirality. For further details we refer to [7,16,45]. An electric plane wave with direction of propagation θ ∈ S 2 and polarization A ∈ C 3 , which must satisfy A • θ = 0, is described by the matrix E i ( • ; θ) ∈ C 3×3 defined by…”
Section: Electromagnetic Chiralitymentioning
confidence: 99%