Satellite-to-ground optical downlink model using mode mismatching multi-mode photonic lanterns

Guo, Wenjie; Li, Yan; Chen, Junjie; Jin, Tiecheng; Jiao, Suping; Wu, Jian; Qiu, Jifang; Guo, Hongxiang

doi:10.1364/oe.502844

Opt. Express

2023

DOI: 10.1364/oe.502844

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Satellite-to-ground optical downlink model using mode mismatching multi-mode photonic lanterns

Wenjie Guo,

Yan Li,

Junjie Chen

et al.

Abstract: Photonics lanterns (PLs) provide an effective mode diversity solution to mitigate atmospheric turbulence interference in free-space optical communications (FSOC). This paper presents mode-mismatching multimode photonic lanterns (MM-PLs) for diversity receiver in satellite-to-ground downlink scenarios. Our study evaluates the coupling characteristics of the mode-selective PLs (MSPLs) and non-mode-selective PLs (NSPLs) for the influence of strong-to-weak turbulence and confirms that MSPLs outperform NSPLs under … Show more

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The application of photonic lanterns in free space optical communications

Tedder

2024

Optical Interconnects XXIV

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Photonic lanterns offer an efficient solution to transition distorted light from free space into small aperture or singlemode waveguide devices. As a result, photonic lanterns can be useful for free space optical communications, where light is transmitted across a channel with varying atmospheric conditions. This paper will give an overview of studies using photonic lanterns in photon counting optical communication receivers where the detectors are small in aperture and fiber coupled. This paper will also survey other potential uses of photonic lanterns in coherent optical communication receivers or as wavefront sensors in adaptive optical systems.

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The application of photonic lanterns in free space optical communications

Tedder

2024

Optical Interconnects XXIV

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Experimental demonstration of coherent receiver with photonic lantern and digital signal processing

Yevick,

Bayne,

Garcia

et al. 2024

Free-Space Laser Communications XXXVI

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In free-space optical communications in which the signal is coupled into a single-mode fiber, atmospheric distortion leads to loss of signal and reduced receiver sensitivity. We demonstrate a coherent receiver system in which a dual polarization quadrature phase shift-keying (DP-QPSK) signal is coupled into a photonic lantern, which efficiently separates the light from a large multimode core into single mode fibers. Outputs from the lantern are passed to off-the-shelf integrated coherent receivers and digitized, and the resulting signals are coherently combined with optimal weight coefficients. The reconstructed signal exhibits reduced sensitivity to atmospheric distortion and demonstrates improved performance.

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Satellite-to-ground optical downlink model using mode mismatching multi-mode photonic lanterns

Cited by 2 publications

References 22 publications

The application of photonic lanterns in free space optical communications

The application of photonic lanterns in free space optical communications

Experimental demonstration of coherent receiver with photonic lantern and digital signal processing

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