We introduce the use of superchiral surface waves for the all-optical separation of chiral compounds. Using a combination of electrodynamics modeling and analytical techniques, we show that the proposed approach provides chiral optical forces 2 orders of magnitude larger than those obtained with circularly polarized plane waves. Superchiral surface waves allow for enantiomer separation on spatial, temporal, and size scales that would not be achievable with alternative techniques, thus representing a viable route toward all-optical enantiomer separation.
Superchiral surface waves for all-optical enantiomer separation
Pellegrini G.;Finazzi M.;Celebrano M.;Duo' L.;Biagioni P.
2019-01-01
Abstract
We introduce the use of superchiral surface waves for the all-optical separation of chiral compounds. Using a combination of electrodynamics modeling and analytical techniques, we show that the proposed approach provides chiral optical forces 2 orders of magnitude larger than those obtained with circularly polarized plane waves. Superchiral surface waves allow for enantiomer separation on spatial, temporal, and size scales that would not be achievable with alternative techniques, thus representing a viable route toward all-optical enantiomer separation.File in questo prodotto:
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