Marco Eppenberger
ETH Zurich
30 Papers
37 Citations
Marco Eppenberger is an academic researcher from ETH Zurich. The author has contributed to research in topics: Computer science & Oversampling. The author has an hindex of 4, co-authored 18 publications.
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Papers
Deep learning based digital backpropagation demonstrating SNR gain at low complexity in a 1200 km transmission link
Bertold Ian Bitachon,Amirhossein Ghazisaeidi,Marco Eppenberger,Benedikt Baeurle,Masafumi Ayata,Juerg Leuthold +5 more
TL;DR: Simulation results indicate that the proposed scheme is suitable to deal with impairments from transmission over longer distances and it is sufficient to update the elements of the DL network using a signal with high nonlinearity when dispersion or non linearity conditions changes.
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Resonant plasmonic micro-racetrack modulators with high bandwidth and high temperature tolerance
Marco Eppenberger,Andreas Messner,Bertold Ian Bitachon,Wolfgang Heni,Tobias Blatter,Patrick Habegger,Marcel Destraz,Eva De Leo,Norbert Meier,Nino Del Medico,Claudia Hoessbacher,Benedikt Baeuerle,Juerg Leuthold +12 more
TL;DR: Plasmonic micro-racetrack modulators as discussed by the authors have been proposed as a potential successor of silicon microrings: they are equally compact and compatible with complementary-metal-oxide-semiconductor-level driving voltages, but offer electro-optical bandwidths of 176 GHz, a 28 times improved stability against operating temperature changes and no self-heating effects.
Transparent Optical-THz-Optical Link at 240/192 Gbit/s Over 5/115 m Enabled by Plasmonics
Yannik Horst,Tobias Blatter,Laurenz Kulmer,Bertold Ian Bitachon,Benedikt Baeuerle,Marcel Destraz,Wolfgang Heni,Stefan M. Koepfli,Patrick Habegger,Marco Eppenberger,Eva De Leo,Claudia Hoessbacher,Delwin L. Elder,Scott R. Hammond,Lewis E. Johnson,Larry R. Dalton,Yuriy Fedoryshyn,Yannick Salamin,Maurizio Burla,Juerg Leuthold +19 more
TL;DR: In this article , a transparent optical-subTHz-optical link with record-high single line rates of 240 Gbps and 192 Gbps on a single optical carrier over distances from 5 to 115 m is demonstrated.
Low-Complexity Real-Time Receiver for Coherent Nyquist-FDM Signals
TL;DR: A new low-complexity hardware architecture and digital signal processing (DSP) implementation for coherent reception of Nyquist frequency division multiplexed (Nyquist-FDM, digital subcarrier multiplexing) signals in real time is proposed and demonstrated.
Broadband Metallic Fiber-to-Chip Couplers and a Low-Complexity Integrated Plasmonic Platform.
Andreas Messner,Pascal A. Jud,Joel Winiger,Marco Eppenberger,Daniel Chelladurai,Wolfgang Heni,Benedikt Baeuerle,Ueli Koch,Ping Ma,Christian Haffner,Huajun Xu,Delwin L. Elder,Larry R. Dalton,Jasmin Smajic,Juerg Leuthold +14 more
TL;DR: In this article, a plasmonic platform featuring efficient, broadband metallic fiber-to-chip couplers that directly interfaces with PLASM slot waveguides, such as compact and high-speed electro-optic modulators, is presented.
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