Search Results - "Konczykowska, A"

High Symbol Rate Coherent Optical Transmission Systems: 80 and 107 Gbaud by Raybon, Gregory, Adamiecki, Andrew, Winzer, Peter J., Randel, Sebastian, Salamanca, Luis, Konczykowska, A., Jorge, Filip, Dupuy, Jean-Yves, Buhl, Larry L., Chandrashekhar, Sethumadhavan, Chongin Xie, Draving, Steve, Grove, Marty, Rush, Kenneth, Urbanke, Ruediger

“…We demonstrate high speed optical transmission systems using digital coherent detection at all-electronically multiplexed symbol rates of 80 and 107 Gbaud. At…”
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160-GSa/s-and-Beyond 108-GHz-Bandwidth Over-2-Vppd Output-Swing 0.5-μm InP DHBT 2:1 AMUX-Driver for Next-Generation Optical Communications by Hersent, R., Konczykowska, A., Jorge, F., Blache, F., Nodjiadjim, V., Riet, M., Mismer, C., Renaudier, J.

“…This letter reports on a 108-GHz bandwidth 0.5-<inline-formula> <tex-math notation="LaTeX">\mu \text{m} </tex-math></inline-formula> InP DHBT…”
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Tunable 100 Gbaud Transmitter Based on Hybrid Polymer-to-Polymer Integration for Flexible Optical Interconnects by Groumas, P., Zhang, Z., Katopodis, V., Konczykowska, A., Dupuy, J. Y., Beretta, A., Dede, A., Choi, J. H., Harati, P., Jorge, F., Nodjiadjim, V., Riet, M., Dinu, R., Cangini, G., Miller, E., Vannucci, A., Keil, N., Bach, H. G., Grote, N., Spyropoulou, M., Avramopoulos, H., Kouloumentas, C.

“…We introduce a hybrid integration platform based on the combination of passive and electro-optic polymers. We analyze the optical and physical compatibility of…”
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A 1-GSample/s, 15-GHz Input Bandwidth Master-Slave Track-and-Hold Amplifier in InP DHBT Technology by Bouvier, Y., Ouslimani, A., Konczykowska, A., Godin, J.

“…A fully differential master-slave track-and-hold amplifier is designed and fabricated in a 210-GHz- f T InP DHBT process. Input bandwidth of 15 GHz, total…”
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0.7- \mu m InP DHBT Technology With 400-GHz } and } and 4.5-V BVCE0 for High Speed and High Frequency Integrated Circuits by Nodjiadjim, V., Riet, M., Mismer, C., Hersent, R., Jorge, F., Konczykowska, A., Dupuy, J.-Y.

“…We report the performances of a 0.7-μm InP/GaInAs DHBT developed in III-V Lab demonstrating both f T and f MAX of 400 GHz as well as a high fabrication yield…”
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Submicron InP DHBT Technology for High-Speed High-Swing Mixed-Signal ICs by Godin, J., Nodjiadjim, V., Riet, M., Berdaguer, P., Drisse, O., Derouin, E., Konczykowska, A., Moulu, J., Dupuy, J.-Y., Jorge, F., Gentner, J.-L., Scavennec, A., Johansen, T., Krozer, V.

“…We report on the development of a submicron InP DHBT technology, optimized for the fabrication of ges50-GHz- clock mixed-signal ICs. In-depth study of device…”
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39.4-Gb/s Duobinary Transmission Over 24.4 m of Coaxial Cable Using a Custom Indium Phosphide Duobinary-to-Binary Converter Integrated Circuit by Sinsky, J.H., Konczykowska, A., Adamiecki, A.L., Jorge, F., Duelk, M.

“…We show, for the first time, duobinary transmission of 39.4-Gb/s data over a 24.4-m-long 5.2-mm-diameter coaxial cable with SMA connectors, enabled by the…”
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Direct Detection of 107-Gb/s Polarization-Multiplexed RZ-DQPSK Without Optical Polarization Demultiplexing by Chandrasekhar, S., Liu, X., Konczykowska, A., Jorge, F., Dupuy, J.-Y., Godin, J.

“…We demonstrate a direct detection scheme for a 107-Gb/s polarization-multiplexed return-to-zero differential quadrature phase-shift keyed signal, featuring…”
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DC-100-GHz frequency doublers in InP DHBT technology by Puyal, V., Konczykowska, A., Nouet, P., Bernard, S., Blayac, S., Jorge, F., Riet, M., Godin, J.

“…Broad-band monolithic integrated active frequency doublers operating in dc-100-GHz frequency range are presented. Circuits are fabricated in a self-aligned InP…”
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Design, Modelling and Characterization of a 3-Vppd 90-GBaud Over-110-GHz-Bandwidth Linear Driver in 0.5-μm InP DHBTs for Optical Communications by Hersent, R., Johansen, Tom K., Nodjiadjim, V., Jorge, F., Duval, B., Blache, F., Riet, M., Mismer, C., Konczykowska, A.

“…In this article, we present the modelling, design and characterization of a 3-Vppd linear-output-swing 90-GBd PAM-4 modulator driver, realised in III-V Lab's…”
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High-sensitivity InP/InGaAs DHBT decision circuit-design and application in optical and system experiments at 40-43 Gbit/s by Konczykowska, A., Jorge, F., Idler, W., Godin, J.

“…A high-input-sensitivity decision D flip-flop integrated circuit was designed and fabricated in a self-aligned InP double heterojunction bipolar transistor…”
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WDM transmission at 6-Tbit/s capacity over transatlantic distance, using 42.7-Gb/s differential phase-shift keying without pulse carver by Charlet, G., Corbel, E., Lazaro, J., Klekamp, A., Dischler, R., Tran, P., Idler, W., Mardoyan, H., Konczykowska, A., Jorge, F., Bigo, S.

“…We report the transmission of a record 6 Tbit/s capacity over 6120 km distance, involving channels modulated at 42.7-Gb/s bit-rate with differential…”
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100 GBaud DSP-Free PAM-4 Optical Signal Generation Using an InP-DHBT AMUX-Driver and a Thin-Film Lithium Niobate Modulator Assembly by Hersent, R., Jorge, F., Blache, F., Duval, B., Goix, M., Mardoyan, H., Almonacil, S., Xu, M., Zhu, Y., Chen, L., Hu, Z., Renaudier, J., Riet, M., Konczykowska, A., Ardouin, B.

“…In this article, we report on the generation of 100-GBd (200-Gb/s) 4-level pulse-amplitude modulation (PAM-4) optical signal, without any support of digital…”
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Distributed amplifiers in InP DHBT for 100-Gbit/s operation by Dupuy, J.-Y, Konczykowska, A, Jorge, F, Riet, M, Godin, J

“…Two single-ended distributed amplifiers were designed and fabricated using a 0.7-μm InP double heterojunction bipolar transistor (DHBT) technology. The first…”
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Co-Packaged 107 Gb/s photoreceiver for direct detection comprising InP-based pinTWA and DEMUX by Mekonnen, G G, Bach, H, Kunkel, R, Schubert, C, Pech, D, Konczykowska, A, Jorge, F, Scavennec, A, Riet, M

“…Monolithically integrated InP-based pinTWA photoreceiver OEICs, co-packaged with DHBT-DEMUX chips for 100 GbE transmission concepts are presented. Packaged…”
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Direct detection transceiver at 150-Gbit/s net data rate using PAM 8 for optical interconnects by Mestre, M. A., Mardoyan, H., Konczykowska, A., Rios-Muller, R., Renaudier, J., Jorge, F., Duval, B., Dupuy, J.-Y, Ghazisaeidi, A., Jenneve, P., Bigo, S.

“…We demonstrate a single-polarization driver-free, direct-detection 56-GBaud PAM-8 transceiver enabled by a high-speed selector power DAC fabricated in InP…”
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Single-carrier all-ETDM 1.08-Terabit/s line rate PDM-64-QAM transmitter using a high-speed 3-bit multiplexing DAC by Raybon, G., Adamiecki, A., Cho, J., Winzer, P., Konczykowska, A., Jorge, F., Dupuy, J.-Y, Riet, M., Duval, B., Kim, K., Randel, S., Pilori, D., Guan, B., Fontaine, N., Burrows, E. C.

“…We demonstrate the first all-electronically time division multiplexed (ETDM) transponder with a line rate exceeding 1 Tb/s (90-GBd PDM-64-QAM), using a novel…”
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InGaAs/InP DHBT technology and design methodology for over 40 Gb/s optical communication circuits by Andre, P., Blayac, S., Berdaguer, P., Benchimol, J.-L., Godin, J., Kaffmann, N., Konczykowska, A., Kasbari, A.-E., Riet, M.

“…High-performance technologies and adequate design methodologies are required to address the needs of very high-speed ICs (VHSICs) for over 40 Gb/s optical…”
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High power and high speed InP DHBT driver IC's for laser modulation by Meghelli, M., Bouche, M., Konczykowska, A.

“…A driver IC and a 2:1 selector-driver IC developed for lightwave modulators are presented. The IC's were fabricated in a standard InP/InGaAs double…”
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Design of high-speed master-slave D-type flip-flop in InP DHBT technology by Kasbari, A.-E., Andre, P., Konczykowska, A., Riet, M., Blayac, S., Ouslimani, H., Godin, J.

“…In this paper, we present some design problems of high-speed master-slave D-type flip-flop (MS D-FF). Essential to the long-haul optical-fiber communication…”
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