Polarization Multiplexing with the Kramers-Kronig Receiver

Cristian Antonelli; Antonio Mecozzi; Mark Shtaif; Xi Chen; Sethumadhavan Chandrasekhar; Peter J. Winzer

doi:10.1109/JLT.2017.2765240

Polarization Multiplexing with the Kramers-Kronig Receiver

Cristian Antonelli, Antonio Mecozzi, Mark Shtaif, Xi Chen, Sethumadhavan Chandrasekhar, Peter J. Winzer

School of Electrical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We present two schemes extending the Kramers-Kronig-receiver to polarization multiplexed transmission. One of the schemes relies on the Stokes receiver and allows for complex-valued polarization multiplexed transmission without using a local oscillator, and active polarization control at the receiver. It uses three photodiodes and requires three analog-to-digital converters (ADCs). The other scheme uses a local oscillator, and its implementation is suitable in all cases where the transmitter and the receiver operate at the same wavelength, so that the local oscillator signal can be extracted from the transmit laser. It uses only two photodiodes and two ADCs, and does not require optical hybrids. The performance of the first (Stokes-based) scheme is studied numerically, whereas that of the second scheme is studied both numerically and experimentally.

Original language	English
Article number	8082496
Pages (from-to)	5418-5424
Number of pages	7
Journal	Journal of Lightwave Technology
Volume	35
Issue number	24
DOIs	https://doi.org/10.1109/JLT.2017.2765240
State	Published - 15 Dec 2017

Keywords

Heterodyning
modulation
optical fiber communications
phase retrieval

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10.1109/JLT.2017.2765240

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title = "Polarization Multiplexing with the Kramers-Kronig Receiver",

abstract = "We present two schemes extending the Kramers-Kronig-receiver to polarization multiplexed transmission. One of the schemes relies on the Stokes receiver and allows for complex-valued polarization multiplexed transmission without using a local oscillator, and active polarization control at the receiver. It uses three photodiodes and requires three analog-to-digital converters (ADCs). The other scheme uses a local oscillator, and its implementation is suitable in all cases where the transmitter and the receiver operate at the same wavelength, so that the local oscillator signal can be extracted from the transmit laser. It uses only two photodiodes and two ADCs, and does not require optical hybrids. The performance of the first (Stokes-based) scheme is studied numerically, whereas that of the second scheme is studied both numerically and experimentally.",

keywords = "Heterodyning, modulation, optical fiber communications, phase retrieval",

author = "Cristian Antonelli and Antonio Mecozzi and Mark Shtaif and Xi Chen and Sethumadhavan Chandrasekhar and Winzer, {Peter J.}",

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AU - Antonelli, Cristian

AU - Mecozzi, Antonio

AU - Shtaif, Mark

AU - Chen, Xi

AU - Chandrasekhar, Sethumadhavan

AU - Winzer, Peter J.

PY - 2017/12/15

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N2 - We present two schemes extending the Kramers-Kronig-receiver to polarization multiplexed transmission. One of the schemes relies on the Stokes receiver and allows for complex-valued polarization multiplexed transmission without using a local oscillator, and active polarization control at the receiver. It uses three photodiodes and requires three analog-to-digital converters (ADCs). The other scheme uses a local oscillator, and its implementation is suitable in all cases where the transmitter and the receiver operate at the same wavelength, so that the local oscillator signal can be extracted from the transmit laser. It uses only two photodiodes and two ADCs, and does not require optical hybrids. The performance of the first (Stokes-based) scheme is studied numerically, whereas that of the second scheme is studied both numerically and experimentally.

AB - We present two schemes extending the Kramers-Kronig-receiver to polarization multiplexed transmission. One of the schemes relies on the Stokes receiver and allows for complex-valued polarization multiplexed transmission without using a local oscillator, and active polarization control at the receiver. It uses three photodiodes and requires three analog-to-digital converters (ADCs). The other scheme uses a local oscillator, and its implementation is suitable in all cases where the transmitter and the receiver operate at the same wavelength, so that the local oscillator signal can be extracted from the transmit laser. It uses only two photodiodes and two ADCs, and does not require optical hybrids. The performance of the first (Stokes-based) scheme is studied numerically, whereas that of the second scheme is studied both numerically and experimentally.

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Polarization Multiplexing with the Kramers-Kronig Receiver

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