We adopt genetic multi-objective optimization to design dielectric multilayers that support superchiral surface waves across a wide range of wavelengths. Our research reveals that it is possible to obtain extremely simple platforms that can significantly enhance the optical chirality in a wavelength range of hundreds of nanometers. Additionally, we demonstrate that this approach enhances the circular dichroism signal by more than two orders of magnitude when a layer of chiral molecules is deposited on top of the dielectric stack. As a result, our findings potentially expand the capabilities of chiral spectroscopies beyond what is usually possible with conventional circular dichroism measurements.
Photonic Multilayers for Broadband and Large Area Superchiral Surface Waves
Pellegrini, Giovanni;Mogni, Erika;Yubero, Francisco;Simone, Giuseppina;Osellame, Roberto;Celebrano, Michele;Finazzi, Marco;Biagioni, Paolo
2023-01-01
Abstract
We adopt genetic multi-objective optimization to design dielectric multilayers that support superchiral surface waves across a wide range of wavelengths. Our research reveals that it is possible to obtain extremely simple platforms that can significantly enhance the optical chirality in a wavelength range of hundreds of nanometers. Additionally, we demonstrate that this approach enhances the circular dichroism signal by more than two orders of magnitude when a layer of chiral molecules is deposited on top of the dielectric stack. As a result, our findings potentially expand the capabilities of chiral spectroscopies beyond what is usually possible with conventional circular dichroism measurements.| File | Dimensione | Formato | |
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Photonic_Multilayers_for_Broadband_and_Large_Area_Superchiral_Surface_Waves.pdf
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