Plasma Distribution in a Column of a Low-Pressure Microwave Discharge Sustained by a Standing Surface Wave

Article Physics, Fluids & Plasmas

Microwave Low-Pressure Gas Discharge Sustained by a Standing Surface Wave in the Dipolar Mode

V. I. Zhukov et al.

Summary: This study focuses on the maintenance of a microwave gas discharge under the dipolar mode, using a standing surface electromagnetic wave. The setup involves creating a standing wave between two flat mirrors, forming an open resonator structure. The Q factor of the open resonator was found to be several tens. The electric field structures of a free discharge and a discharge supported by the standing surface wave field are determined, and the results show resonance on a purely surface wave.

PLASMA PHYSICS REPORTS (2023)

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Article Physics, Fluids & Plasmas

Concept of power absorbed and lost per electron in surface-wave plasma columns and its contribution to the advanced understanding and modeling of microwave discharges

Michel Moisan et al.

Summary: Microwave sustained discharges have unique advantages in understanding discharge phenomena and mechanisms. The stationary plasma sheath and the ability of electrons to pick up energy from the discharge E-field are distinctive features. The concept of power per electron is crucial in determining the equilibrium relationship between power absorbed and power lost. It can be used to optimize energy consumption and understand the intensity of the high-frequency E-field in the discharge.

PHYSICAL REVIEW E (2022)

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Article Physics, Fluids & Plasmas