Large-Scale InP Photonic Integrated Circuits: Enabling Efficient Scaling of Optical Transport Networks
An overview of commercially available large-scale photonic integrated circuits (PICs) in indium phosphide is provided. Results of 100-Gb/s PICs that are field-deployed in wavelength-division-multiplexing (WDM) networks is provided, along with development results showing scaling of both channel count...
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| Veröffentlicht in: | IEEE journal of selected topics in quantum electronics 2007-01, Vol.13 (1), p.22-31 |
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| creator | Welch, D.F. Kish, F.A. Melle, S. Nagarajan, R. Kato, M. Joyner, C.H. Pleumeekers, J.L. Schneider, R.P. Back, J. Dentai, A.G. Dominic, V.G. Evans, P.W. Kauffman, M. Lambert, D.J.H. Hurtt, S.K. Mathur, A. Mitchell, M.L. Missey, M. Murthy, S. Nilsson, A.C. Salvatore, R.A. Van Leeuwen, M.F. Webjorn, J. Ziari, M. Grubb, S.G. Perkins, D. Reffle, M. Mehuys, D.G. |
| description | An overview of commercially available large-scale photonic integrated circuits (PICs) in indium phosphide is provided. Results of 100-Gb/s PICs that are field-deployed in wavelength-division-multiplexing (WDM) networks is provided, along with development results showing scaling of both channel count and channel bit rate to implement next-generation PICs with an aggregate capacity of 1.6 Tb/s. Use of PIC-enabled WDM systems allows affordable optical-electrical-optical (OEO) conversion and the implementation of "digital" optical networks with enhanced sub-wavelength reconfigurable bandwidth management, digital performance monitoring, and protection features. PICs will enable the continued capacity scaling required for next-generation IP core networks and support of high-bandwith 40-G and 100-GbE service connectivity between core routers |
| doi_str_mv | 10.1109/JSTQE.2006.890068 |
| format | Article |
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Results of 100-Gb/s PICs that are field-deployed in wavelength-division-multiplexing (WDM) networks is provided, along with development results showing scaling of both channel count and channel bit rate to implement next-generation PICs with an aggregate capacity of 1.6 Tb/s. Use of PIC-enabled WDM systems allows affordable optical-electrical-optical (OEO) conversion and the implementation of "digital" optical networks with enhanced sub-wavelength reconfigurable bandwidth management, digital performance monitoring, and protection features. 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Results of 100-Gb/s PICs that are field-deployed in wavelength-division-multiplexing (WDM) networks is provided, along with development results showing scaling of both channel count and channel bit rate to implement next-generation PICs with an aggregate capacity of 1.6 Tb/s. Use of PIC-enabled WDM systems allows affordable optical-electrical-optical (OEO) conversion and the implementation of "digital" optical networks with enhanced sub-wavelength reconfigurable bandwidth management, digital performance monitoring, and protection features. PICs will enable the continued capacity scaling required for next-generation IP core networks and support of high-bandwith 40-G and 100-GbE service connectivity between core routers</description><subject>Aggregates</subject><subject>Bit rate</subject><subject>Channels</subject><subject>Digital</subject><subject>Indium phosphide</subject><subject>Indium phosphides</subject><subject>Integrated circuits</subject><subject>Integrated optics</subject><subject>Integrated optoelectronics</subject><subject>Large scale integration</subject><subject>large-scale photonic integration</subject><subject>Networks</subject><subject>Next generation networking</subject><subject>optical fiber communication</subject><subject>Optical fiber networks</subject><subject>optical receivers</subject><subject>optical transmitters</subject><subject>Photonic integrated circuits</subject><subject>Photonics</subject><subject>Routers</subject><subject>Wavelength division multiplexing</subject><subject>WDM networks</subject><issn>1077-260X</issn><issn>1558-4542</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNqFkUtvEzEURkcIJErhByA2FgtYTXr9GtvsUBSgKGqLGiR2luNcB5fpOLUdIf49DkEsuqCb-7DOdyXrdN1LCjNKwZx9vl59WcwYwDDTplX9qDuhUupeSMEetxmU6tkA3552z0q5AQAtNJx0YenyFvtr70Yk59MVufqeapqib0vFbXYVN2Qes9_HWt6RxeTWY5y2ZBFC9BGnSg7Rw0sK5HJXY9vIKrup7FKu5ALrz5R_lOfdk-DGgi_-9tPu64fFav6pX15-PJ-_X_aea1V7NayloUAdBOZ9kCEgNyD02qDgWgytO62ZVEpIbsRGKO0Dxw24NfdeO37avT3e3eV0t8dS7W0sHsfRTZj2xRrgA5NMqQdJrWGQmmnWyDf_JbkQXAA3DXx9D7xJ-zy1_1pDGR0UiKFB9Aj5nErJGOwux1uXf1kK9qDS_lFpDyrtUWXLvDpmIiL-40VTKIXhvwFSGZnP</recordid><startdate>200701</startdate><enddate>200701</enddate><creator>Welch, D.F.</creator><creator>Kish, F.A.</creator><creator>Melle, S.</creator><creator>Nagarajan, R.</creator><creator>Kato, M.</creator><creator>Joyner, C.H.</creator><creator>Pleumeekers, J.L.</creator><creator>Schneider, R.P.</creator><creator>Back, J.</creator><creator>Dentai, A.G.</creator><creator>Dominic, V.G.</creator><creator>Evans, P.W.</creator><creator>Kauffman, M.</creator><creator>Lambert, D.J.H.</creator><creator>Hurtt, S.K.</creator><creator>Mathur, A.</creator><creator>Mitchell, M.L.</creator><creator>Missey, M.</creator><creator>Murthy, S.</creator><creator>Nilsson, A.C.</creator><creator>Salvatore, R.A.</creator><creator>Van Leeuwen, M.F.</creator><creator>Webjorn, J.</creator><creator>Ziari, M.</creator><creator>Grubb, S.G.</creator><creator>Perkins, D.</creator><creator>Reffle, M.</creator><creator>Mehuys, D.G.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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| subjects | Aggregates Bit rate Channels Digital Indium phosphide Indium phosphides Integrated circuits Integrated optics Integrated optoelectronics Large scale integration large-scale photonic integration Networks Next generation networking optical fiber communication Optical fiber networks optical receivers optical transmitters Photonic integrated circuits Photonics Routers Wavelength division multiplexing WDM networks |
| title | Large-Scale InP Photonic Integrated Circuits: Enabling Efficient Scaling of Optical Transport Networks |
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