Di Peng scite author profile

Phase-retrieval (PR) receivers can reconstruct complex-valued signals from two de-correlated intensity measurements, without the assistance of any optical carriers. However, both the calculation complexity with hundreds of iterations and the limited PR accuracy prevent it from being applied to high-speed photonic interconnections. Here we propose and demonstrate a PR receiver based on adaptive intensity transformation, with the capability of both fast convergence and high accuracy. Then we numerically reconstruct 56 GBaud QPSK signals after the 80 km standard single-mode fiber transmission by using our proposed PR receiver with only 50 iterations. In comparison with the recently reported PR receiver with the phase reset, our proposed PR receiver can reduce the required optical signal-to-noise ratio by 1.95 and 1.89 dB, in terms of 20% soft-decision and 7% hard-decision forward-error correction, respectively.

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Optimal design of arch bridges by integrating genetic algorithms and the mechanism method

Peng

Fairfield

1999

Engineering Structures

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10-W power light co-transmission with optically carried 5G NR signal over standard single-mode fiber

et al. 2021

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Efficient co-transmission of 10-W power light and optically carried 5G new radio (NR) signal over standard single-mode fiber (SSMF) is experimentally demonstrated, with an optical power transmission efficiency (OPTE) of power light up to 71.8%. This efficiency record is enabled by carefully manipulating the linewidth of the power light and appropriately adjusting the wavelength spacing between the power light and 5G NR optical signal to effectively mitigate the nonlinear effect arising in the SSMF. In the experiment, the optically carried 5G NR 64-level quadrature amplitude modulation orthogonal frequency division multiplexing signal at 1550 nm, with a data rate of 1.5 Gbit/s, is successfully co-propagated with 10-W power light at 1064 nm over 1-km SSMF. The error-vector magnitude (EVM) is 0.48% under a received electrical power of − 25 d B m . In comparison with back-to-back transmission, only slight EVM degradation of 0.02% is observed, showing that the 5G NR optical signal is almost unaffected by the existence of power light. Moreover, the power fluctuation of the collected power light is less than 0.2% over 6 h, while the EVM fluctuation is smaller than 0.01% within 30 min. Our scheme is promising to realize an optically powered remote antenna unit through the existing 5G fronthaul SSMF link.

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Wideband low confinement loss anti-resonant hollow core fiber with nested U-shape tube

Zheng

Qin

et al. 2021

Opt. Express

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We propose a nested U-shape tube anti-resonant hollow core fiber (UARF) that can effectively reduce the confinement loss (CL) as well as the loss oscillations. The key parameters of UARF have been optimized via numerical analysis. Simulation results show that the CL of proposed UARF is lower than 0.01dB/km over a 550 nm operational bandwidth range from 1.3 µm to 1.85 µm. This CL is nearly one order of magnitude lower than the nested anti-resonant nodeless fiber (NANF). Moreover, the loss ratio between higher-order modes to the fundamental mode is verified to be more than 100,000 over a ultrawide bandwidth of 1000 nm, which indicates its excellent single mode performance. The tolerance towards the structure deformation of UARF has been evaluated for the purpose of practical fiber fabrication. Thus, the proposed UARF has potential application in large capacity data transmission, nonlinear optics, gas sensing and so on.

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Advanced DSP Enabled C-Band 112 Gbit/s/λ PAM-4 Transmissions With Severe Bandwidth-Constraint

Xiang

et al. 2022

J. Lightwave Technol.

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Di Peng

Adaptive intensity transformation-based phase retrieval with high accuracy and fast convergence

Optimal design of arch bridges by integrating genetic algorithms and the mechanism method

10-W power light co-transmission with optically carried 5G NR signal over standard single-mode fiber

Wideband low confinement loss anti-resonant hollow core fiber with nested U-shape tube

Advanced DSP Enabled C-Band 112 Gbit/s/λ PAM-4 Transmissions With Severe Bandwidth-Constraint

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