Jul 13, 2022 · Numerous physical mediums can be modelled as turbulent magnetized plasma, for example, the solar corona, and the ionosphere.
Jul 13, 2022 · Numerous physical mediums can be modelled as turbulent magnetized plasma, for example, the solar corona, and the ionosphere.
Jun 9, 2023 · Numerous physical mediums can be modelled as turbulent magnetized plasma, for example, the solar corona, and the ionosphere.
[PDF] Probability density of irradiance for electromagnetic waves ...
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Numerous physical mediums can be modelled as turbulent magnetized plasma, for example, the solar corona, and the ionosphere. Scintillation effects on the ...
Numerous physical mediums can be modelled as turbulent magnetized plasma, for example, the solar corona, and the ionosphere. Scintillation effects on the ...
Probability density of irradiance for electromagnetic waves propagating through turbulent magnetized plasma. · Shishter, Yousef M.; Young, Rupert; Ali, Falah H.
Due to the turbulent nature of space channels, propagating electromagnetic waves suffer from fading-induced turbulence. In particular, scintillation effects are ...
Due to the turbulent nature of space channels, propagating electromagnetic waves suffer from fading-induced turbulence. In particular, scintillation effects are ...
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Probability density of irradiance for electromagnetic waves propagating through turbulent magnetized plasma · Y. ShishterRupert C. D. YoungAli Hassan. Physics ...
Probability density of irradiance for electromagnetic waves propagating through turbulent magnetized plasma. 2022International Journal of Communication ...