Your search keyword '"Enloe C"' showing total 2 results

1. Effects of neutral interactions on velocity-shear-driven plasma waves.

Author

Enloe, C. L., Tejero, E. M., Amatucci, W. E., Crabtree, C., Ganguli, G., and Sotnikov, V.

Subjects

*PLASMA waves, *SHEAR flow, *ELECTROSTATICS, *ELECTRIC fields, *PLASMA density, *ELECTRONS

Abstract

In a laboratory experiment, we demonstrate the substantial effects that collisions between charged and neutral particles have on low-frequency (Ωi ≪ ω ≪ Ωi) shear-driven electrostatic lower hybrid waves in a plasma. We establish a strong (up to 2.5 kV/m) highly localized electric field with a length scale shorter than the ion gyroradius, so that the ions in the plasma, unlike the electrons, do not develop the full E × B drift velocity. The resulting shear in the particle velocities initiates the electron-ion hybrid (EIH) instability, and we observe the formation of strong waves in the vicinity of the shear with variations in plasma densities of 10% or greater. Our experimental configuration allows us to vary the neutral background density by more than a factor of two while holding the charged particle density effectively constant. Not surprisingly, increasing the neutral density decreases the growth rate/saturation amplitude of the waves and increases the threshold electric field necessary for wave formation, but the presence of neutrals affects the dominant wave frequency as well. We show that a 50% increase in the neutral density decreases the wave frequency by 20% while also suppressing the electric field dependence of the frequency that is observed when fewer neutrals are present. The majority of these effects, as well as the values of the frequencies we observe, closely match the predictions of previously developed linear EIH instability theory, for which we present the results of a numerical solution. [ABSTRACT FROM AUTHOR]

Published

2014

2. Survey of DSCS-III B-7 Differential Surface Charging.

Author

Krause, Linda Habash, Cooke, David L., Enloe, C. Lon, Font, Gabriel I., McHarg, M. Geoff, Putz, Victor, Ray, Kevin P., and Toth Jr., Michael J.

Subjects

PARTICLES (Nuclear physics), DIELECTRICS, GEOSTATIONARY satellites, ELECTRONS, SOLAR cycle, SOLAR activity

Abstract

An analysis of differential charging between dielectric surface materials and the frame of a DSCS-III geosynchronous spacecraft is presented. Charging levels measured by surface potential monitors (SPMs) covered with samples of Kapton and Astroquartz have been recorded for one half of a solar cycle. Both seasonal and solar cycle effects are seen in the daily peak levels of the SPM voltages, with local maxima occurring near the equinoxes and a general trend increasing as solar max is approached. Charge neutralization by an onboard Xe plasma contactor was demonstrated to be effective throughout the mission, with a mean voltage reduction of 86% for Astroquartz and 74% for Kapton. Though a statistical analysis shows a general correlation between the fluence of charging electrons with SPM voltages, the event-specific correlation contains enough variance to cast doubt on the usefulness of an electron sensor as a differential charging alarm. We have found that a Kapton-covered SPM may be better suited than an electron sensor as a differential charging alarm. [ABSTRACT FROM AUTHOR]

Published

2004