H
Haik Mardoyan
Researcher at Bell Labs
Publications - 148
Citations - 2860
Haik Mardoyan is an academic researcher from Bell Labs. The author has contributed to research in topics: Transmission (telecommunications) & Wavelength-division multiplexing. The author has an hindex of 27, co-authored 134 publications receiving 2634 citations. Previous affiliations of Haik Mardoyan include Alcatel-Lucent.
Papers
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12.8Tbit/s Transmission of 160 PDM-QPSK (160x2x40Gbit/s) Channels with Coherent Detection over 2,550km
Gabriel Charlet,Jeremie Renaudier,Haik Mardoyan,Oriol Bertran Pardo,Frédéric Cérou,Patrice Tran,Sebastien Bigo +6 more
Journal ArticleDOI
High speed multi-level drivers for spectrally efficient optical transmission systems
Jean Godin,Agnieszka Konzykowska,Jean-Yves Dupuy,Muriel Riet,Virginie Nodjiadjim,Filipe Jorge,Gabriel Charlet,Oriol Bertran-Pardo,Jeremie Renaudier,Haik Mardoyan,Alan H. Gnauck,Peter J. Winzer +11 more
TL;DR: An alternative approach based on a multi-level driver which operates at symbol rates up to 50 GBaud with swings up to 2×2 volts, sufficient to drive various common electro-optic modulators (Vπ ∼3–4 V) is proposed and realized.
Proceedings ArticleDOI
56Gb/s PDM-BPSK experiment with a novel InP-monolithic source based on prefixed optical phase switching
Christophe Kazmierski,Nicolas Chimot,Fabrice Blache,Jean Decobert,F. Alexandre,J. Honecker,C. Leonhardt,Andreas G. Steffan,Oriol Bertran-Pardo,Haik Mardoyan,Jeremie Renaudier,Gabriel Charlet +11 more
TL;DR: In this article, a monolithic QPSK-ready transmitter source based on prefixed phase switching by fast EAMs has been realized on InP using a flexible photonic integrating circuit technology.
Patent
Optical transmitter for transmitting a multilevel amplitude-shift-keying modulated signal
TL;DR: In this paper, an optical transmitter for transmitting a multilevel amplitude-shift-keying modulated signal includes an optical modulator for modulating an optical signal with a multi-level AMK modulation, and a spectral filter adapted to increase a high-frequency component of the modulated optical signal relatively to a central frequency component.
Proceedings ArticleDOI
Polarization-, carrier-, and format-selectable optical flow generation based on a multi-flow transmitter using passive polymers
V. Katopodis,M. Spyropoulou,Christos Tsokos,Panos Groumas,David de Felipe,Norbert Keil,A. Beretta,Antonello Vannucci,Tom K. Johansen,Marco Quagliotti,A. Pagano,J.-Y. Dupuy,Agnieszka Konczykowska,Camille Delezoide,Haik Mardoyan,Ch. Kouloumentas,Hercules Avramopoulos +16 more
TL;DR: A multi-flow transmitter developed within the EU project PANTHER is presented and its first proof-of-concept demonstration of up to two single- or dual-polarization optical flows with selectable wavelength, m-QAM modulation format, number of carriers and destination is evaluated.