Sergiy Gudyriev scite author profile

Sergiy Gudyriev

5Publications

47Citation Statements Received

26Citation Statements Given

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102

Affiliations

Paderborn University, Heinz Nixdorf Stiftung

Publications

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Fundamental limitations of spectrally-sliced optically enabled data converters arising from MLL timing jitter

et al. 2020

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The effect of phase noise introduced by optical sources in spectrally-sliced optically enabled DACs and ADCs is modeled and analyzed in detail. In both data converter architectures, a mode-locked laser is assumed to provide an optical comb whose lines are used to either synthesize or analyze individual spectral slices. While the optical phase noise of the central MLL line as well as of other optical carriers used in the analyzed system architectures have a minor impact on the system performance, the RF phase noise of the MLL fundamentally limits it. In particular, the corresponding jitter of the MLL pulse train is transferred almost one-to-one to the system-level timing jitter of the data converters. While MLL phase noise can in principle be tracked and removed by electronic signal processing, this results in electric oscillator phase noise replacing the MLL jitter and is not conducive in systems leveraging the ultra-low jitter of low-noise mode-locked lasers. Precise analytical models are derived and validated by detailed numerical simulations.

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Coherent ePIC Receiver for 64 GBaud QPSK in 0.25 μm Photonic BiCMOS Technology

Gudyriev

Kress

Zwickel

et al. 2019

J. Lightwave Technol.

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In this paper, we present a monolithically integrated coherent receiver with on-chip grating couplers, 90°hybrid, photodiodes and transimpedance amplifiers. A transimpedance gain of 7.7 kΩ was achieved by the amplifiers. An opto-electrical 3 dB bandwidth of 34 GHz for in-phase and quadrature channel was measured. A real-time data transmission of 64 GBd-QPSK (128 Gb/s) for a single polarization was performed. Index Terms-Silicon photonics, electronic photonic integrated circuit, single chip coherent receiver, optical communications.

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Optical Arbitrary Waveform Measurement (OAWM) on the Silicon Photonic Platform

Fang

Zazzi

Müller

et al. 2021

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Optical Arbitrary Waveform Measurement (OAWM) Using Silicon Photonic Slicing Filters

Fang

Zazzi

Mueller

et al. 2022

J. Lightwave Technol.

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Fully-differential, DC-coupled, self-biased, monolithically-integrated optical receiver in 0.25μm photonic BiCMOS Technology for multi-channel fiber links

Gudyriev

Scheytt

Yan³

et al. 2017

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Sergiy Gudyriev

Fundamental limitations of spectrally-sliced optically enabled data converters arising from MLL timing jitter

Coherent ePIC Receiver for 64 GBaud QPSK in 0.25 μm Photonic BiCMOS Technology

Optical Arbitrary Waveform Measurement (OAWM) on the Silicon Photonic Platform

Optical Arbitrary Waveform Measurement (OAWM) Using Silicon Photonic Slicing Filters

Fully-differential, DC-coupled, self-biased, monolithically-integrated optical receiver in 0.25μm photonic BiCMOS Technology for multi-channel fiber links

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