AIP Advances (Jan 2019)

Multipoint measurements employing a microwave interferometer and a Langmuir probe in the detached linear plasma

  • H. Natsume,
  • H. Tanaka,
  • S. Kajita,
  • M. Yoshikawa,
  • M. Seki,
  • H. Ohshima,
  • N. Ohno

DOI
https://doi.org/10.1063/1.5081929
Journal volume & issue
Vol. 9, no. 1
pp. 015016 – 015016-6

Abstract

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Multipoint measurements were carried out by employing a microwave interferometer (MI) and a Langmuir probe (LP) in steady-state detached plasmas in the linear plasma device NAGDIS-II to reveal the structure of fluctuations along the magnetic field. We changed the LP position along the magnetic field while the MI was fixed at an upstream position. In addition, a fast framing camera was used to identify an azimuthal mode number, and the predominant mode number was identified as m = 1. By analyzing correlations between signals observed by the LP and the MI, it was found that a time delay of 10–20 kHz fluctuations gradually decreased toward the downstream direction. The results indicate a decrease in the rotation velocity in the E × B direction, and suggest that the 10–20 kHz fluctuation forms a spiral shape.