- Title
- Ponderomotive force driven density modifications parallel to B 0 on the LAPD
- Creator
- Barnett, R. L.; Green, D. L.; Waters, C. L.; Lore, J. D.; Smithe, D. N.; Myra, J. R.; Lau, C.; Van Compernolle, B.; Vincena, S.
- Relation
- Physics of Plasmas Vol. 29, Issue 4, no. 042508
- Publisher Link
- http://dx.doi.org/10.1063/5.0071162
- Publisher
- AIP Publishing
- Resource Type
- journal article
- Date
- 2022
- Description
- The ponderomotive force has previously been identified as a possible driver of observed density modifications close to radio frequency actuators during operation. This nonlinear force redistributes density in regions of gradients in the magnitude of an oscillating electric field and describes the influence of the fast time scale RF wave dynamics on slow time scale plasma transport. Depletion of the saturation current (a proxy for the density) measured at the Large Plasma Device (LAPD) was 30–35% during ion cyclotron range of frequencies operation. A coupled 1D plasma transport and cold plasma frequency domain wave solver was developed to self-consistently describe ponderomotive effects and was used to compare with results obtained from the LAPD experiment. The scaled current density driver for the wave model yielded an RF B field in close agreement with two components of the experimental data. However, the 1D parallel model did not accurately reproduce the amplitude or spatial distribution observed in experimental measurements of By. Within the limitations of the 1D model, initial simulation results showed that the ponderomotive force depleted up to 8% for high power (1 MW) and around 1% for the experimental power of 120 kW. This could suggest that the ponderomotive force is not the main driver of density modification for the LAPD experiments presented in this paper. Higher fidelity tools of at least 2D will be required to give a more realistic description of the RF E fields and the effect of the ponderomotive force on the LAPD.
- Subject
- wave model; RF waves; ponderomotive force; plasma devices; plasma properties and parameters; plasma waves
- Identifier
- http://hdl.handle.net/1959.13/1486993
- Identifier
- uon:52023
- Identifier
- ISSN:1070-664X
- Rights
- x
- Language
- eng
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