Experimental demonstration of a 24-port packaged multi-microring network-on-chip in silicon photonic platform

A 24-port packaged multi-microring optical network-on-chip has been tested for simultaneous co- and counter-propagating transmissions at the same wavelength at 10 Gbps. In the co-propagating scenario communications up to five hops with one interfering signal have been tested, together with transmiss...

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Veröffentlicht in:	Optics express 2017-09, Vol.25 (18), p.22004-22016
Hauptverfasser:	Gambini, Fabrizio, Pintus, Paolo, Faralli, Stefano, Chiesa, Marco, Preve, Giovan Battista, Cerutti, Isabella, Andriolli, Nicola
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container_end_page	22016
container_issue	18
container_start_page	22004
container_title	Optics express
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creator	Gambini, Fabrizio Pintus, Paolo Faralli, Stefano Chiesa, Marco Preve, Giovan Battista Cerutti, Isabella Andriolli, Nicola
description	A 24-port packaged multi-microring optical network-on-chip has been tested for simultaneous co- and counter-propagating transmissions at the same wavelength at 10 Gbps. In the co-propagating scenario communications up to five hops with one interfering signal have been tested, together with transmissions impaired by up to three interfering signals. In the counter-propagating scenario the device performance has been investigated exploiting the ring resonators in both shared-source and shared-destination configurations. The spectral characterization is in good agreement with the theoretical results. Bit-error-rate measurements indicate power penalties at BER=10 limited to (i) 0.5 dB in the co-propagating scenarios independently from the number of interfering transmissions, (ii) 0.8 dB in the counter-propagating scenario with shared-source configuration, and (iii) 2 dB in the counter-propagating scenario with shared-destination configuration.
doi_str_mv	10.1364/OE.25.022004
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title	Experimental demonstration of a 24-port packaged multi-microring network-on-chip in silicon photonic platform
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