Long-haul optical transmission link using low-noise phase-sensitive amplifiers

Olsson, Samuel L. I.; Eliasson, Henrik; Astra, Egon; Karlsson, Magnus; Andrekson, P.A.

doi:10.1038/s41467-018-04956-5

Cited by 76 publications

(40 citation statements)

References 44 publications

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“…It has been experimentally shown that a single-channel and single polarization two-mode PSA link at lower transmission speeds, such as 10 GBaud, can result in a remarkable transmission distance improvement of 5.6 times if a PSA link is used instead of an in-line dispersion managed PIA link [11]. However, our simulation study shows that at higher transmission speeds, such as 28 GBaud, a PSA ability to provide a significantly better transmission performance compared to a PIA link in a single-span transmission scenario, does appear to not hold anymore.…”

Section: Necessity Of Multi-span Dispersion Map Optimizationmentioning

confidence: 99%

“…regarding the dispersion map optimization for in-line dispersion compensated PIA links has been carried out [18][19][20], but these principles are not directly applicable to PSA links, since the effectiveness of the nonlinearity mitigation in PSA links is highly dependent on correlation properties of propagated signal and idler waves. It has been shown previously that the dispersion management for a single-span dispersion map optimized PSA link [2,11,21] and for a two-span dispersion map optimized PSA link [22] plays an important role for the nonlinearity mitigation performance. The importance of dispersion map optimization for twin-waves was first noted in [13], where according to the first-order perturbation theory, a symmetric span power map with an anti-symmetric dispersion map should be used for the best nonlinearity mitigation performance for the PCTW approach.…”

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confidence: 99%

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Improved mitigation of self-phase modulation induced impairments in 28 GBaud phase-sensitive amplified links

et al. 2019

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The improved mitigation of self-phase modulation (SPM) induced nonlinear impairments by the use of a multi-span dispersion map optimization in 28 GBaud phase-sensitive amplifier (PSA) links is numerically investigated. We show that a four-span dispersion map optimized PSA link provides 2.1 times reach improvement over a single-span optimized PSA link with a total nonlinear phase shift tolerance increase from 2.1 radians to 8.8 radians. Furthermore, the optimized PSA link increases the maximum transmission reach by 6.9 times compared to a single-span optimized in-line dispersion managed phase-insensitive amplifier (PIA) link and 4.3 times reach extension is achieved compared to a dispersion unmanaged PIA link.

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Section: Necessity Of Multi-span Dispersion Map Optimizationmentioning

confidence: 99%

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confidence: 99%

Improved mitigation of self-phase modulation induced impairments in 28 GBaud phase-sensitive amplified links

et al. 2019

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“…Recently, WDM amplification and an SNR advantage of around 5 dB compared with EDFAs have > REPLACE THIS LINE WITH YOUR PAPER IDENTIFICATION NUMBER (DOUBLE-CLICK HERE TO EDIT) < 2 been demonstrated using PPLN waveguides and HNLFs [14][15][16]. The potential of ND-PSAs as inline amplifiers has also been demonstrated [17]. One of the most important problems we face in actual PSAs is the effect of chromatic dispersion (CD) on the gain spectrum.…”

Section: Introductionmentioning

confidence: 99%

Accurate Estimation of Chromatic Dispersion for Non-Degenerate Phase-Sensitive Amplification

Shimizu

Kazama

Kobayashi

et al. 2021

J. Lightwave Technol.

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A phase-sensitive amplifier (PSA) has the potential of low-noise optical amplification and nonlinear phase noise mitigation. For PSA operation, the chromatic dispersion (CD) that causes gain ripple must be compensated before amplification. We propose an accurate CD estimation method for non-degenerate PSAs (ND-PSAs). We experimentally demonstrated its effectiveness by using periodically poled LiNbO3 waveguides as amplification mediums. We first modified the conventional formula for the gain spectrum under residual CD conditions to be applicable to ND-PSAs by considering phase locking. We then experimentally described the effect of passband narrowing due to the gain ripple on the signal quality using a probabilistically shaped 64QAM signal. Furthermore, we applied the modified formula to CD estimation and compensation. As a result, accurate CD estimation on the sub-ps/nm order and gain-flattened spectrum over 3.5 THz were demonstrated with our method. We also propose a method for estimating residual CD from the gain variation among wavelength division multiplexing (WDM) channels. The possibility of adaptive compensation for CD was shown by carrying out WDM amplification.

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“…A PSA that can amplify both quadratures of an optical wave requires two input waves at different wavelengths, the signal and its conjugate (idler) and a single pump. Although PSAs are available in many different configurations, the one-pump non-degenerate signal/idler configuration, which is simple to implement and amplifies both light quadratures 17 , was adopted in this work.…”

Section: Introductionmentioning

confidence: 99%

One photon-per-bit receiver using near-noiseless phase-sensitive amplification

2020

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Space communication for deep-space missions, inter-satellite data transfer and Earth monitoring requires high-speed data connectivity. The reach is fundamentally dictated by the available transmission power, the aperture size, and the receiver sensitivity. A transition from radio-frequency links to optical links is now seriously being considered, as this greatly reduces the channel loss caused by diffraction. A widely studied approach uses power-efficient formats along with nanowire-based photon-counting receivers cooled to a few Kelvins operating at speeds below 1 Gb/s. However, to achieve the multi-Gb/s data rates that will be required in the future, systems relying on pre-amplified receivers together with advanced signal generation and processing techniques from fibre communications are also considered. The sensitivity of such systems is largely determined by the noise figure (NF) of the pre-amplifier, which is theoretically 3 dB for almost all amplifiers. Phase-sensitive optical amplifiers (PSAs) with their uniquely low NF of 0 dB promise to provide the best possible sensitivity for Gb/s-rate long-haul free-space links. Here, we demonstrate a novel approach using a PSA-based receiver in a free-space transmission experiment with an unprecedented bit-error-free, black-box sensitivity of 1 photon-per-information-bit (PPB) at an information rate of 10.5 Gb/s. The system adopts a simple modulation format (quadrature-phase-shift keying, QPSK), standard digital signal processing for signal recovery and forward-error correction and is straightforwardly scalable to higher data rates.

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Long-haul optical transmission link using low-noise phase-sensitive amplifiers

Cited by 76 publications

References 44 publications

Improved mitigation of self-phase modulation induced impairments in 28 GBaud phase-sensitive amplified links

Improved mitigation of self-phase modulation induced impairments in 28 GBaud phase-sensitive amplified links

Accurate Estimation of Chromatic Dispersion for Non-Degenerate Phase-Sensitive Amplification

One photon-per-bit receiver using near-noiseless phase-sensitive amplification

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