Capacity of turbulent ocean link with point error and carrier of Bessel-Gaussian localized vortex wave

Dongyu Yang; Haifeng Shi; Yixin Zhang

doi:10.1117/12.2580147

5 November 2020 Capacity of turbulent ocean link with point error and carrier of Bessel-Gaussian localized vortex wave

Dongyu Yang, Haifeng Shi, Yixin Zhang

Proceedings Volume 11562, AOPC 2020: Advanced Laser Technology and Application; 1156214 (2020) https://doi.org/10.1117/12.2580147
Event: Applied Optics and Photonics China (AOPC 2020), 2020, Beijing, China

Abstract

Based on the power spectrum of the index fluctuation with the outer scale of seawater turbulence, we develop the channel capacity of oceanic turbulence links with carrier Bessel-Gaussian vortex localized wave. By this capacity model, we investigate the influences of seawater turbulence and carrier parameters on the channel capacity. The results show that higher rate of dissipation of kinetic energy per unit mass of fluid, larger inner scale, or lower dissipation rate of the meansquared temperature causes the higher channel capacity; the Bessel-Gaussian localized vortex wave with broader initial half-pulse width has stronger resistance to oceanic turbulent perturbation. This work provides a theoretical basis for realizing high capacity oceanic optical communication with carrier Bessel-Gaussian vortex localized wave.

Citation Download Citation

Dongyu Yang, Haifeng Shi, and Yixin Zhang "Capacity of turbulent ocean link with point error and carrier of Bessel-Gaussian localized vortex wave", Proc. SPIE 11562, AOPC 2020: Advanced Laser Technology and Application, 1156214 (5 November 2020); https://doi.org/10.1117/12.2580147

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KEYWORDS

Turbulence

Free space optics

Optical communications

Refractive index

Wave propagation

Quantum information

Telecommunications

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