Zobrazeno 1 - 3
of 3
pro vyhledávání: '"Summer R. Hollingsworth"'
Autor:
RK Chiou, Jonathan K. Doylend, Harinadh Potluri, Ranju Venables, Christopher Seibert, John Heck, Jian Chen, Mohammad Montazeri, B. Xie, A. Awujoola, Yuliya Akulova, S. Gupta, Andrew Alduino, Nelson N. Tang, Richard Jones, Syed S. Islam, Summer R. Hollingsworth, Alexander Krichevsky, Avsar Dahal, Daniel Zhu, S. McCargar, David Hui, Hari Mahalingam, R. L. Spreitzer, Frish Harel, K. M. Brown, Siamak Amiralizadeh, S. Garag, Meer Sakib, Ling Liao, R. S. Appleton, Susheel G. Jadhav, Guneet Kaur, Kimchau N. Nguyen, A. Vardapetyan, Min Cen, Vishnu Kulkarni, Zhi Li, L. Kamyab, Thomas Liljeberg, Saeed Fathololoumi, Reece A. Defrees
Publikováno v:
Journal of Lightwave Technology. 39:1155-1161
We describe the performance of high bandwidth-density silicon photonic based integrated circuits (SiPh ICs) that enable the first fully functional photonic engine (PE) module co-packaged with an Ethernet switch. We demonstrate the 1.6 Tbps SiPh trans
Autor:
Christopher Seibert, Jonathan K. Doylend, Meer Sakib, Jian Chen, Summer R. Hollingsworth, Richard Jones, Sean McCargar, Catherine Jan, Zhi Li, Ling Liao, Kimchau N. Nguyen, Ranju Venables, Hari Mahalingam, John Heck, Randal S. Appleton, Frish Harel, Yuliya Akulova, Saeed Fathololoumi, Mohammad Montazeri, Reece A. Defrees, Hasitha Jayatilleka, Daniel Zhu
Publikováno v:
OFC
We demonstrate 1.6Tbps Silicon Photonic Integrated Circuit (SiPIC) meeting co-packaged optics requirements for network switch applications. The SiPIC has sixteen 106Gbps PAM4 optical channels, including lasers, modulators and V-grooves. Post-FEC erro
Autor:
Avsar Dahal, Summer R. Hollingsworth, Jonathan K. Doylend, Haijiang Yu, Ghiurcan George A, Yuliya Akulova, Michael E. Favaro, David Gold, Catherine Jan, Wei Liu, Kimchau N. Nguyen, Randolph T. Romero, Wenhua Lin, Liang Qiu, Robert W. Herrick, Daniel Zhu
Publikováno v:
OFC
A 100Gbps CWDM4 silicon photonics transmitter with four heterogeneously integrated distributed feedback lasers on 20 nm wavelength grids has been demonstrated for 5G wireless front-haul applications over a temperature range of −20°C to 95°C.