Chinese Optics Letters, 2018, 16 (8): 080102, Published Online: Aug. 2, 2018
Anisotropy effect on multi-Gaussian beam propagation in turbulent ocean 
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Figures & Tables
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.
Yalçın Ata, Yahya Baykal. Anisotropy effect on multi-Gaussian beam propagation in turbulent ocean[J]. Chinese Optics Letters, 2018, 16(8): 080102.
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