Chinese Optics Letters, Volume. 16, Issue 8, 080102(2018)
Anisotropy effect on multi-Gaussian beam propagation in turbulent ocean
Figures & Tables(9)
Fig. 1. Average transmittance of the flat-topped beam versus anisotropy factor for various salinity and temperature contribution factors.
Fig. 2. Average transmittance of the flat-topped beam versus anisotropy factor for various beam source sizes.
Fig. 3. Average transmittance of the flat-topped beam versus anisotropy factor for various beam flatness orders.
Fig. 4. Average transmittance of the flat-topped beam versus anisotropy factor for various rates of dissipation of turbulent kinetic energy.
Fig. 5. Average transmittance of the flat-topped beam versus anisotropy factor for various rates of dissipation of the mean squared temperature.
Fig. 6. Average transmittance of the flat-topped beam versus anisotropy factor for various Kolmogorov microscale lengths.
Fig. 7. Average transmittance of the flat-topped beam versus the link length for various anisotropy factors.
Fig. 8. Average transmittance of the flat-topped beam versus source size for various link lengths.
Fig. 9. Average transmittance of the annular beam versus anisotropy factor for various source sizes when the inner and outer source size ratios are fixed.
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Yalçın Ata, Yahya Baykal, "Anisotropy effect on multi-Gaussian beam propagation in turbulent ocean," Chin. Opt. Lett. 16, 080102 (2018)
Paper Information
Category: Atmospheric and oceanic optics
Received: Apr. 5, 2018
Accepted: Jun. 13, 2018
Published Online: Aug. 2, 2018
The Author Email: Yalçın Ata (ylcnata@gmail.com)
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