Plasma gradient effets on doubel-probe measurements in the magnetosphere

Details Plasma gradient effets on doubel-probe measurements in the magnetosphere Plasma gradient effets on doubel-probe measurements in the magnetosphere

Feb 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995angeo..13..130l&link_type=abstract

Annales Geophysicae (ISSN 0992-7689), vol. 13, no. 2, p. 130-146

Physics

15

Earth Magnetosphere, Electric Fields, Electrical Measurement, Electrostatic Probes, Magnetospheric Electron Density, Space Plasmas, Temperature Gradients, Error Analysis, Instrument Errors, Signatures

Scientific paper

The effects on double-probe electric field measurements induced by electron density and temperature gradients are investigated. We show that on some occasions such gradients may lead to marked spurious electric fields if the probes are assumed to lie at the same probe potential with repect to the plasma. The use of a proper bias current will decrease the magnitude of such an error. When the probes are near the plasma potential, the magnitude of these error signals, delta Epsilon, can vary as delta Epsilon approx. T(sub e)(Delta n(sub e)/n(sub e)) + 0.5 Delta T(sub e), where T(sub e) is the electron temperature, Delta n(sub e)/ n(sub e) the relative electron density variation between the two sensors, and Delta T(sub e) the electron temperature difference between the two sensors. This not only implies that the error signals will increase linearly with the density variations but also that such signatures grow with Delta T(sub e) i.e., such effects are 10 times larger in a 10-eV plasma than in a 1-eV plasma. This type of error is independent of the probe separation distance provided the gradient scale length is much larger than the distance. The largest errors occur when the probes are near to the plasma potential. During the crossing of a small structure (e.g, a double layer) the error signal appears as a bipolar signature. Our analysis shows that errors in double-probe measurements caused by plasma gradients are not significant at large scale (much greater than 1 km) plasma boundaries, and may only be important in cases where small-scale (less than 1 km), internal gradient structures exist. Bias currents tailored for each plasma parameter regime (i.e., variable bias current) would improve the double-probe response to gradient effects considerably.

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