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143 results on '"Karinou, Fotini"'

1. A low-power integrated magneto-optic modulator on silicon for cryogenic applications

Author

Pintus, Paolo, Ranzani, Leonardo, Pinna, Sergio, Huang, Duanni, Gustafsson, Martin V., Karinou, Fotini, Casula, Giovanni Andrea, Shoji, Yuya, Takamura, Yota, Mizumoto, Tetsuya, Soltani, Mohammad, and Bowers, John E.

Subjects
Physics - Optics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

A fundamental challenge of the quantum revolution is to efficiently interface the quantum computing systems operating at cryogenic temperatures with room temperature electronics and media for high data-rate communication. Current approaches to control and readout of such cryogenic computing systems use electrical cables, which prevent scalability due to their large size, heat conduction, and limited bandwidth1. A more viable approach is to use optical fibers which allow high-capacity transmission and thermal isolation. A key component in implementing photonic datalinks is a cryogenic optical modulator for converting data from the electrical to the optical domain at high speed and with low power consumption, while operating at temperatures of 4 K or lower. Cryogenic modulators based on the electro-optic effect have been demonstrated in a variety of material platforms, however they are voltage driven components while superconducting circuits are current based, resulting in a large impedance mismatch. Here, we present the first demonstration of an integrated current-driven modulator based on the magneto-optic effect operating over a wide temperature range that extends down to less than 4 K. The modulator works at data rates up to 2 Gbps with energy consumption below 4 pJ/bit, and we show that this figure can be reduced to less than 40 fJ/bit with optimized design and fabrication. This modulator is a hybrid device, where a current-driven magneto-optically active crystal (cerium substituted yttrium iron garnet, or Ce:YIG) is bonded to a high-quality silicon microring resonator. Because of its potential for extremely low power consumption under cryogenic conditions, the class of magneto-optical modulators demonstrated here has the potential to enable efficient data links in large-scale systems for quantum information processing., Comment: Single pdf file

Published
2021

2. Ultrafast optical circuit switching for data centers using integrated soliton microcombs

Author

Raja, Arslan Sajid, Lange, Sophie, Karpov, Maxim, Shi, Kai, Fu, Xin, Behrendt, Raphael, Cletheroe, Daniel, Lukashchuk, Anton, Haller, Istvan, Karinou, Fotini, Thomsen, Benn, Jozwik, Krzysztof, Liu, Junqiu, Costa, Paolo, Kippenberg, Tobias, and Ballani, Hitesh

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Networks inside current data centers comprise a hierarchy of power-hungry electronic packet switches interconnected via optical fibers and transceivers. As the scaling of such electrically-switched networks approaches a plateau, a power-efficient solution is to implement a flat network with optical circuit switching (OCS), without electronic switches and a reduced number of transceivers due to direct links among servers. One of the promising ways of implementing OCS is by using tunable lasers and arrayed waveguide grating routers. Such an OCS-network can offer high bandwidth and low network latency, and the possibility of photonic integration results in an energy-efficient, compact, and scalable photonic data center network. To support dynamic data center workloads efficiently, it is critical to switch between wavelengths in sub nanoseconds (ns). Here we demonstrate ultrafast photonic circuit switching based on a microcomb. Using a photonic integrated Si3N4 microcomb in conjunction with semiconductor optical amplifiers (SOAs), sub ns (< 500 ps) switching of more than 20 carriers is achieved. Moreover, the 25-Gbps non-return to zero (NRZ) and 50-Gbps four-level pulse amplitude modulation (PAM-4) burst mode transmission systems are shown. Further, on-chip Indium phosphide (InP) based SOAs and arrayed waveguide grating (AWG) are used to show sub-ns switching along with 25-Gbps NRZ burst mode transmission providing a path toward a more scalable and energy-efficient wavelength-switched network for future data centers., Comment: 11 pages, 6 figures

Published
2020
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4. Pilot-assisted intradyne reception for high-speed continuous-variable quantum key distribution with true local oscillator

Author

Laudenbach, Fabian, Schrenk, Bernhard, Pacher, Christoph, Hentschel, Michael, Fung, Chi-Hang Fred, Karinou, Fotini, Poppe, Andreas, Peev, Momtchil, and Hübel, Hannes

Subjects
Quantum Physics
Abstract

We present a pilot-assisted coherent intradyne reception methodology for CV-QKD with true local oscillator. An optically phase-locked reference tone, prepared using carrier-suppressed optical single-sideband modulation, is multiplexed in polarisation and frequency to the 250 Mbaud quantum signal in order to provide optical frequency- and phase matching between quantum signal and local oscillator. Our concept allows for high symbol rates and can be operated at an extremely low excess-noise level, as validated by experimental measurements., Comment: 12 pages, 6 figures, 1 table

Published
2017
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5. Detector-on-Demand Architecture for Flexible Homodyne Transmission in Optical Networks

Author

Schrenk, Bernhard and Karinou, Fotini

Abstract

The dynamicity and heterogeneity in traffic demands necessitates an adaptation of optical transceivers to the actual network needs. While software-defined mechanisms can contribute to this challenge, hardware-oriented schemes have been hardly addressed to date. Towards this direction, we propose a multi-purpose transceiver architecture that is able to adapt its physical-layer function with respect to coherent homodyne detection and signal transmission thanks to its segmented layout that features dual-function opto-electronic elements. By synthesizing various transceiver configurations, we will experimentally show the flexible use of polarization and spectrum through switching between half- and full-duplex modes in polarization-independent or polarization-multiplexed signal transmission at up to 91 Gb/s/sub-λ data rates, while optionally supporting the ultra-dense packing of data channels and simultaneous mixed signal transmission on a single wavelength.

Published
2024
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9. Full-Duplex mmWave Radio-Over-Fiber Architecture With Simplified Photonic Frequency Translation

Author

Schrenk, Bernhard and Karinou, Fotini

Abstract

Fiber-optics plays a critical role for the deployment of beyond-5G networks. Towards this direction, we will evaluate simplified remote radio head optics based on an electro-absorption modulated laser that is operated as a full-duplex mm-wave transceiver. We experimentally show, for the first time, that the coherent homodyne reception methodology of our transceiver can inherently provide a transparent optical frequency translation of the radio signal, and prove this function through photonic up-/down-conversion of a down-/uplink signal between the Ka-band and a low radio carrier frequency. We will experimentally confirm these points through full-duplex radio transmission at 34.3/29.3 GHz over an optical budget of 18.7 dB and a reach of 15 km. The proposed scheme is found to reduce the overall complexity of the mobile fronthaul link through a reduction in the required high-frequency mixers and synthesizers, while further enhancing the robustness of the mm-wave radio-over-fiber transmission to dispersion-induced fading.

Published
2024
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11. A Sub-Picojoule per Bit Integrated Magneto-Optic Modulator on Silicon: Modeling and Experimental Demonstration

Author

Rombouts, Marijn, Karinou, Fotini, Pintus, Paolo, Huang, Duanni, Bowers, John E., Calabretta, Nicola, Rombouts, Marijn, Karinou, Fotini, Pintus, Paolo, Huang, Duanni, Bowers, John E., and Calabretta, Nicola

Abstract

Integrated magneto-optic (MO) modulators are an attractive but not fully explored alternative to electro-optic (EO) modulators. They are current driven, structurally simple, and could potentially achieve high efficiency in cryogenic and room temperature environments where fJ bit−1 optical interfaces are needed. In this paper, the performance and energy efficiency of a novel MO modulator at room temperature are for the first time assessed. First, a model of the micro-ring-based modulator is implemented to investigate the design parameters and their influence on the performance. Then, a fabricated device is experimentally characterized to assess its performance in terms of bit rate and energy efficiency. The model shows efficient operation at 1.2 Gbps using a 16 mA drive current, consuming only 155 fJ bit−1. The experimental results show that the MO effect is suitable for modulation, achieving error-free operation above 16 mA with a power consumption of 258 fJ bit−1 at a transient limited data rate of 1.2 Gbps.

Published
2023

16. Current-Driven Magneto-Optic Modulator for Low-Impedence Superconducting Circuits

Author

Pintus, Paolo, primary, Ranzani, Leonardo, additional, Pinna, Sergio, additional, Huang, Duanni, additional, Gustafsson, Martin V., additional, Karinou, Fotini, additional, Casula, Giovanni Andrea, additional, Shoji, Yuya, additional, Takamura, Yota, additional, Mizumoto, Tetsuya, additional, Soltani, Mohammad, additional, and Bowers, John E., additional

Published
2022
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27. Sirius

Author

Ballani, Hitesh, primary, Costa, Paolo, additional, Behrendt, Raphael, additional, Cletheroe, Daniel, additional, Haller, Istvan, additional, Jozwik, Krzysztof, additional, Karinou, Fotini, additional, Lange, Sophie, additional, Shi, Kai, additional, Thomsen, Benn, additional, and Williams, Hugh, additional

Published
2020
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37. Partial response signaling for improved chromatic dispersion tolerance in intensity modulation optical transmissions

Author

Universitat Politècnica de València. Departamento de Comunicaciones - Departament de Comunicacions, Prodaniuc, Cristian, Stojanovic, Nebojsa, Karinou, Fotini, Llorente, Roberto, Universitat Politècnica de València. Departamento de Comunicaciones - Departament de Comunicacions, Prodaniuc, Cristian, Stojanovic, Nebojsa, Karinou, Fotini, and Llorente, Roberto

Abstract

[EN] We investigate partial response signaling (PRS) as a way of increasing the transmission length achievable by direct detection optical systems. The performance of the duobinary and PRS modulations is evaluated against that of conventional on-off-keying (OOK). We prove by simulation and experimentally that duobinary increases the link distance by up to 1.5 times and PRS by up to 3 times, when no signal processing is employed. The gain is preserved even when equalization is used. PRS is employed also with 4-level pulseamplitude modulation (PAM-4) and is shown to improve the transmission distance by almost 3 times.

Published
2018

41. Toward the Integration of CV Quantum Key Distribution in Deployed Optical Networks

Author

Karinou, Fotini, primary, Brunner, Hans H., additional, Fung, Chi-Hang Fred, additional, Comandar, Lucian C., additional, Bettelli, Stefano, additional, Hillerkuss, David, additional, Kuschnerov, Maxim, additional, Mikroulis, Spiros, additional, Wang, Dawei, additional, Xie, Changsong, additional, Peev, Momtchil, additional, and Poppe, Andreas, additional

Published
2018
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46. A flexible continuous-variable QKD system using off-the-shelf components

Author

Comandar, Lucian Corneliu, primary, Brunner, Hans H., primary, Karinou, Fotini, primary, Fung, Fred, primary, Bettelli, Stefano, primary, Hillerkuss, David, primary, Mikroulis, Spiros, primary, Wang, Dawei, primary, Kuschnerov, Maxim, primary, Xie, Changsong, primary, Poppe, Andreas, primary, and Peev, Momtchil, primary

Published
2017
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