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An InP-Based Optical Equalizer Monolithically Integrated With a Semiconductor Optical Amplifier

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Abstract:

We present the first optical equalizer realized on Indium Phosphide material that is also monolithically integrated with a semiconductor optical amplifier. We show that t...Show More

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Abstract:

We present the first optical equalizer realized on Indium Phosphide material that is also monolithically integrated with a semiconductor optical amplifier. We show that the device can mitigate inter-symbol interference arising from narrowband optical filtering of 40-Gb/s non-return-to-zero data. Significant improvement in the measured bit-error rates after optical equalization of the filtered signal is reported. It is shown that the device can also mitigate the impairments arising from residual chirp and electrical filtering in the transmitter and receiver.

Published in: IEEE Photonics Technology Letters ( Volume: 19, Issue: 19, October 2007)

Page(s): 1514 - 1516

Date of Publication: 17 September 2007

ISSN Information:

DOI: 10.1109/LPT.2007.903722

Citations are not available for this document.

Contents

I. Introduction

With data rates increasing beyond 40 Gb/s, it is becoming more challenging to achieve the required bandwidths in optical communication systems. Optical equalizers [1] have been shown to compensate the inter-symbol interference (ISI) resulting from fiber dispersion, insufficient bandwidth in a system [2], [3], or nonlinear impairments from a semiconductor optical amplifier (SOA) [4]. The transmitter may be limited by both the electrical bandwidth of its modulator and driver, and by the bandwidth of the optical multiplexing system. An optical equalizer can play a critical role in achieving higher data rates and it would be advantageous to have a device that is sufficiently compact to allow packaging in the transmitter module or ultimately to be monolithically integrated with the laser and modulator. Since optical equalizers introduce loss as part of the equalization process, the capability to integrate a gain element would allow the transmitter power to be maintained. This makes the integration of an equalizer on an Indium Phosphide (InP)-based platform, which has a smaller bend radius and can provide optical amplification and ultimately integration with the rest of the transmitter, an attractive option.

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Paikun Zhu, Yuki Yoshida, Atsushi Kanno, Ken-ichi Kitayama, "Analysis and Demonstration of Low-Complexity Joint Optical-Electrical Feedforward Equalization (OE-FFE) For Dispersion-Limited High-Speed IM/DD Transmission", Journal of Lightwave Technology, vol.41, no.2, pp.477-488, 2023.

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Yatian Li, Tianwen Geng, Ruotong Tian, Shijie Gao, "A Modified Viterbi Equalization Algorithm for Mitigating Timing Errors in Optical Turbulence Channels", IEEE Transactions on Wireless Communications, vol.20, no.6, pp.3491-3506, 2021.

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Xuhan Guo, David G. Cunningham, Richard V. Penty, Ian H. White, "Optical Equalizers for Bandwidth-Limited Transmitters and PAM-Based Fiber Optic Links", Journal of Lightwave Technology, vol.36, no.12, pp.2484-2491, 2018.

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Cites in Papers - Other Publishers (4)

Zoe Rizou, Kyriakos Zoiros, Antonios Hatziefremidis, "Comparison of Basic Notch Filters for Semiconductor Optical Amplifier Pattern Effect Mitigation", Applied Sciences, vol.7, no.8, pp.783, 2017.

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Carlos L. Janer, "Semiconductor optical amplifier pattern effect suppression for return-to-zero data using an optical delay interferometer", Optical Engineering, vol.49, no.8, pp.085005, 2010.

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A. Bhardwaj, J.E. Simsarian, J.D. Legrange, L. Zhang, P. Bernasconi, N. Sauer, L. Buhl, D.T. Neilson, "Wavelength conversion using semiconductor optical amplifiers in differential mach-zehnder interferometer with tunable input coupler", Electronics Letters, vol.45, no.4, pp.225-227, 2009.

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Milan L. Mašanović, Emily F. Burmeister, Anna Tauke-Pedretti, Brian R. Koch, Matthew M. Dummer, Joseph A. Summers, Jonathon S. Barton, Larry A. Coldren, John E. Bowers, Daniel J. Blumenthal, "Photonic Integrated Circuits for Optical Routing and Switching Applications", Integrated Photonics and Nanophotonics Research and Applications, pp.IWC5, 2008.

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An InP-Based Optical Equalizer Monolithically Integrated With a Semiconductor Optical Amplifier

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I. Introduction

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Cites in Papers - Other Publishers (4)

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An InP-Based Optical Equalizer Monolithically Integrated With a Semiconductor Optical Amplifier

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Abstract:

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Abstract:

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I. Introduction

Cites in Papers - IEEE (3) | Other Publishers (4)

Cites in Papers - IEEE (3)

Cites in Papers - Other Publishers (4)

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