What question did this study set out to answer?

The aim is to explore how surface waves are generated in magnetized warm plasma and the effects of polarization.

March 8, 2026Open Access

Generation of Surface Waves in a Magnetized Warm Plasma

Key Points

The aim is to explore how surface waves are generated in magnetized warm plasma and the effects of polarization.
Utilized a fluid-plasma model with Maxwell's equations
Analyzed wave generation in both cold and warm plasma conditions
Investigated linear interactions between incident waves of identical polarization
Derived governing equations for wave behavior
S- and P-polarized waves generate P-polarized surface waves
Demonstrated polarization selectivity due to magnetic anisotropy
Provided new insights into plasma boundary wave mechanisms
Extended previous findings on unmagnetized or cold plasma models

Abstract

This paper investigates the linear generation of surface waves in both cold and warm non-magnetized and magnetized plasma. Using a fluid-plasma model with Maxwell’s equations in the presence of an external magnetic field ( ), we derive governing equations for wave generation via linear interactions between incident waves of identical polarization. Analytical solutions reveal that both S- and P-polarized incident waves generate P-polarized surface waves, demonstrating polarization selectivity induced by magnetic anisotropy. The results provide insight into wave mechanisms at plasma boundaries and suggest potential applications in plasma-based wave control and frequency conversion. These findings provide new insight into the mechanisms governing surface wave behavior in magnetized warm plasmas and extend earlier studies limited to unmagnetized or cold plasma models.

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