Interplanetary scintillation observations for the solar wind disappearance event of May 1999

Interplanetary scintillation observations for the solar wind disappearance event of May 1999

In this article we present ground‐based interplanetary scintillation (IPS) measurements at 103 and 327 MHz for the period of the solar wind disappearance event of May 1999 as seen by various space probes. The solar wind velocity measurements at 327 MHz showed a variable solar wind velocity during th...

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Bibliographic Details
Published in:Journal of Geophysical Research: Space Physics Vol. 106; no. A11; pp. 25121 - 25124
Main Authors: Vats, Hari Om, Sawant, H. S., Oza, Rupal, Iyer, K. N., Jadhav, Ravi
Format: Journal Article
Language:English
Published: Washington, DC Blackwell Publishing Ltd 01-11-2001
American Geophysical Union
Subjects:
Astronomy
Earth, ocean, space
Exact sciences and technology
Interplanetary space
Solar system
Solar wind plasma
Measurement in situ
Interplanetary scintillation
Plasma flow
Ground based measurement
Scintillation index
Flow velocity
Plasma density
Solar wind
Comparative study
Interplanetary plasma
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Summary:In this article we present ground‐based interplanetary scintillation (IPS) measurements at 103 and 327 MHz for the period of the solar wind disappearance event of May 1999 as seen by various space probes. The solar wind velocity measurements at 327 MHz showed a variable solar wind velocity during this period at a distance of ∼0.5 AU from the Sun. The average solar wind velocity from three radio sources varied in the range of 200–300 km s−1. The scintillation index measurements at 103 MHz indicate that plasma density was very low in the interplanetary medium closer to the Earth and that the density was normal away from it during May 11–13. The scintillation index was enhanced significantly on May 14 after the disappearance event. The comparison with the in situ observations shows that the effect is dramatic in IPS observations. IPS and in situ measurements show that a large, tenuous, and slow plasma cloud engulfed our planet around this time, which could be because of a corotating low‐density narrow stream. From the source (Sun) point of view, this was mostly a normal plasma flow in most of the interplanetary medium.
Bibliography:istex:8638615A000D3A790E6E14A3381D325FFCBC053F
ark:/67375/WNG-WD4PSZZS-Q
ArticleID:2000JA000254
ISSN:0148-0227
2156-2202
DOI:10.1029/2000JA000254