Circular dichroism in biological photonic crystals and cubic chiral nets

M. Saba; M. Thiel; M. D. Turner; S. T. Hyde; M. Gu; K. Grosse-Brauckmann; D. N. Neshev; K. Mecke; G. E. Schröder-Turk

doi:10.1103/PhysRevLett.106.103902

Circular dichroism in biological photonic crystals and cubic chiral nets

M. Saba^*, M. Thiel, M. D. Turner, S. T. Hyde, M. Gu, K. Grosse-Brauckmann, D. N. Neshev, K. Mecke, G. E. Schröder-Turk

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

141 Citations (Scopus)

Abstract

Nature provides impressive examples of chiral photonic crystals, with the notable example of the cubic so-called srs network (the label for the chiral degree-three network modeled on SrSi₂) or gyroid structure realized in wing scales of several butterfly species. By a circular polarization analysis of the band structure of such networks, we demonstrate strong circular dichroism effects: The butterfly srs microstructure, of cubic I4₁32 symmetry, shows significant circular dichroism for blue to ultraviolet light, that warrants a search for biological receptors sensitive to circular polarization. A derived synthetic structure based on four like-handed silicon srs nets exhibits a large circular polarization stop band of a width exceeding 30%. These findings offer design principles for chiral photonic devices.

Original language	English
Article number	103902
Journal	Physical Review Letters
Volume	106
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.106.103902
Publication status	Published - 11 Mar 2011

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title = "Circular dichroism in biological photonic crystals and cubic chiral nets",

abstract = "Nature provides impressive examples of chiral photonic crystals, with the notable example of the cubic so-called srs network (the label for the chiral degree-three network modeled on SrSi2) or gyroid structure realized in wing scales of several butterfly species. By a circular polarization analysis of the band structure of such networks, we demonstrate strong circular dichroism effects: The butterfly srs microstructure, of cubic I4132 symmetry, shows significant circular dichroism for blue to ultraviolet light, that warrants a search for biological receptors sensitive to circular polarization. A derived synthetic structure based on four like-handed silicon srs nets exhibits a large circular polarization stop band of a width exceeding 30%. These findings offer design principles for chiral photonic devices.",

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AU - Saba, M.

AU - Thiel, M.

AU - Turner, M. D.

AU - Hyde, S. T.

AU - Gu, M.

AU - Grosse-Brauckmann, K.

AU - Neshev, D. N.

AU - Mecke, K.

AU - Schröder-Turk, G. E.

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AB - Nature provides impressive examples of chiral photonic crystals, with the notable example of the cubic so-called srs network (the label for the chiral degree-three network modeled on SrSi2) or gyroid structure realized in wing scales of several butterfly species. By a circular polarization analysis of the band structure of such networks, we demonstrate strong circular dichroism effects: The butterfly srs microstructure, of cubic I4132 symmetry, shows significant circular dichroism for blue to ultraviolet light, that warrants a search for biological receptors sensitive to circular polarization. A derived synthetic structure based on four like-handed silicon srs nets exhibits a large circular polarization stop band of a width exceeding 30%. These findings offer design principles for chiral photonic devices.

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Circular dichroism in biological photonic crystals and cubic chiral nets

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