Photonics: Zero‐ and π‐States in a Periodic Array of Deep Photonic Wires (Advanced Optical Materials 8/2014)

An organic microcavity is excited by blue and green pump lasers, showing bright coherent emission in the red. On page 746, A. Mischok et al. show how an additional plasmonic microstructure in the cavity leads to the formation of Tamm‐Plasmon‐Polariton states and an intricate far‐field pattern, which...

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Veröffentlicht in:	Advanced optical materials 2014-08, Vol.2 (8), p.802-802
Hauptverfasser:	Mischok, Andreas, Lyssenko, Vadim G., Brückner, Robert, Löchner, Franz, Scholz, Reinhard, Zakhidov, Alexander A., Fröb, Hartmut, Leo, Karl
Format:	Artikel
Sprache:	eng
Schlagworte:	organic microcavities periodic arrays photonic Bloch states photonic crystals photonic wires Tamm‐Plasmon‐Polaritons
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description	An organic microcavity is excited by blue and green pump lasers, showing bright coherent emission in the red. On page 746, A. Mischok et al. show how an additional plasmonic microstructure in the cavity leads to the formation of Tamm‐Plasmon‐Polariton states and an intricate far‐field pattern, which enables the observation of photonic Bloch states. Photography by Juliane Schmidt.
doi_str_mv	10.1002/adom.201470052
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subjects	organic microcavities periodic arrays photonic Bloch states photonic crystals photonic wires Tamm‐Plasmon‐Polaritons
title	Photonics: Zero‐ and π‐States in a Periodic Array of Deep Photonic Wires (Advanced Optical Materials 8/2014)
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