Kuang‐Tsan Wu scite author profile

Abstract-The emergence of capable semiconductor processes has allowed digital signal processing to extend the application range of high-capacity optical systems. We report the performance of polarization multiplexed (or dual-polarization) quadrature phase-shift keying at 40 and 100 Gb/s. Index Terms-Electronic signal processing, optical coherent transceiver, polarization multiplexing, quadrature phase-shift keying (QPSK).

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System-on-Chip Photonic Integrated Circuits

Kish

Lal

Evans

et al. 2018

IEEE J. Select. Topics Quantum Electron.

134

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Point-to-Multipoint Optical Networks Using Coherent Digital Subcarriers

Welch

Napoli²,

Bäck³

et al. 2021

J. Lightwave Technol.

128

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A paradigm shift in optical communication networks is proposed, with the introduction of a new ecosystem of devices and components with the capability of transforming current point-to-point optical networks (with their entailed, limiting, electrical aggregation) into flexible, scalable and cost-effective pointto-multipoint networks. In the new architecture, which better aligns with the hub-and-spoke traffic patterns observed in today's metro and access network segments, interoperability across a variety of transceivers operating at different speeds is achieved using individually routed, digitally generated subcarriers. The first comprehensive demonstration of the technical feasibility of the proposed point-to-multipoint architecture based on digital subcarrier multiplexing is presented, along with the remarkable cost savings and simplification of the network it enables.

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Current Status of Large-Scale InP Photonic Integrated Circuits

Kish

Welch

Nagarajan

et al. 2011

IEEE J. Select. Topics Quantum Electron.

110

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1.00 (0.88) Tb/s per Wave Capable Coherent Multi-Channel Transmitter (Receiver) InP-Based PICs With Hybrid Integrated SiGe Electronics

Going

Lauermann

Maher

et al. 2018

IEEE J. Quantum Electron.

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Kuang‐Tsan Wu

Performance of Dual-Polarization QPSK for Optical Transport Systems

System-on-Chip Photonic Integrated Circuits

Point-to-Multipoint Optical Networks Using Coherent Digital Subcarriers

Current Status of Large-Scale InP Photonic Integrated Circuits

1.00 (0.88) Tb/s per Wave Capable Coherent Multi-Channel Transmitter (Receiver) InP-Based PICs With Hybrid Integrated SiGe Electronics

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