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Molecule-plasmon interactions have been shown to have a definite role in light propagation through optical microcavities due to strong coupling between molecular excitations and surface plasmons. This coupling can lead to macroscopic extended coherent states exhibiting increment in temporal and

Molecule-plasmon interactions have been shown to have a definite role in light propagation through optical microcavities due to strong coupling between molecular excitations and surface plasmons. This coupling can lead to macroscopic extended coherent states exhibiting increment in temporal and spatial coherency and a large Rabi splitting. Here, we demonstrate spatial modulation of light transmission through a single microcavity patterned on a freestanding Au film, strongly coupled to one of the most efficient energy transfer photosynthetic proteins in nature, photosystem I. Here we observe a clear correlation between the appearance of spatial modulation of light and molecular photon absorption, accompanied by a 13-fold enhancement in light transmission and the emergence of a distinct electromagnetic standing wave pattern in the cavity. This study provides the path for engineering various types of bio-photonic devices based on the vast diversity of biological molecules in nature.

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    Title
    • Spatial Modulation of Light Transmission Through a Single Microcavity by Coupling of Photosynthetic Complex Excitations to Surface Plasmons
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    Date Created
    2015-06-01
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  • Text
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    Identifier
    • Digital object identifier: 10.1038/ncomms8334
    • Identifier Type
      International standard serial number
      Identifier Value
      2041-1723
    Note
    • The final version of this article, as published in NATURE COMMUNICATIONS, can be viewed online at: http://dx.doi.org/10.1038/ncomms8334

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    Carmeli, Itai, Cohen, Moshik, Heifler, Omri, Lilach, Yigal, Zalevsky, Zeev, Mujica, Vladimiro, & Richter, Shachar (2015). Spatial modulation of light transmission through a single microcavity by coupling of photosynthetic complex excitations to surface plasmons. NATURE COMMUNICATIONS, 6. http://dx.doi.org/10.1038/ncomms8334

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