Article · Wikipedia archive · Last revised Jul 19, 2026

Resonator mode

In the resonator mode, the plasma density does not exceed the critical density. A standing electromagnetic wave, which is confined by a resonator cavity, penetrates the plasma and sustains it in the regions of highest field intensity. The geometry of this region determines the spatial distribution of the plasma. Plasmas excited in resonator mode are less resistant against detuning, for instance by the insertion of electric probes or electrically conducting samples compared to surface-wave plasmas. There, the high plasma density better shields disturbing potentials.

Last revised
Jul 19, 2026
Read time
≈ 1 min
Length
98 w
Citations
1
Source

In the resonator mode,1 the plasma density does not exceed the critical density. A standing electromagnetic wave, which is confined by a resonator cavity, penetrates the plasma and sustains it in the regions of highest field intensity. The geometry of this region determines the spatial distribution of the plasma. Plasmas excited in resonator mode are less resistant against detuning, for instance by the insertion of electric probes (Langmuir probes) or electrically conducting samples compared to surface-wave plasmas. There, the high plasma density better shields disturbing potentials.

References

References

  1. "Microwave Discharge Plasma". piescientific.com. 7 June 2021. Retrieved 22 August 2025.