Protein-based ultrafast photonic switching

Several inorganic and organic materials have been suggested for utilization as nonlinear optical material performing light-controlled active functions in integrated optical circuits, however, none of them is considered to be the optimal solution. Here we present the first demonstration of a subpicos...

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Veröffentlicht in:	Optics express 2011-09, Vol.19 (20), p.18861-18870
Hauptverfasser:	Fábián, László, Heiner, Zsuzsanna, Mero, Mark, Kiss, Miklós, Wolff, Elmar K, Ormos, Pál, Osvay, Károly, Dér, András
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacteriorhodopsins - chemistry Bacteriorhodopsins - radiation effects Computer Simulation Equipment Design Models, Theoretical Nonlinear Dynamics Optical Devices Photochemistry - methods Photons Telecommunications
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container_end_page	18870
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container_title	Optics express
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creator	Fábián, László Heiner, Zsuzsanna Mero, Mark Kiss, Miklós Wolff, Elmar K Ormos, Pál Osvay, Károly Dér, András
description	Several inorganic and organic materials have been suggested for utilization as nonlinear optical material performing light-controlled active functions in integrated optical circuits, however, none of them is considered to be the optimal solution. Here we present the first demonstration of a subpicosecond photonic switch by an alternative approach, where the active role is performed by a material of biological origin: the chromoprotein bacteriorhodopsin, via its ultrafast BR->K and BR->I transitions. The results may serve as a basis for the future realization of protein-based integrated optical devices that can eventually lead to a conceptual revolution in the development of telecommunications technologies.
doi_str_mv	10.1364/OE.19.018861
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subjects	Bacteriorhodopsins - chemistry Bacteriorhodopsins - radiation effects Computer Simulation Equipment Design Models, Theoretical Nonlinear Dynamics Optical Devices Photochemistry - methods Photons Telecommunications
title	Protein-based ultrafast photonic switching
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