Y. Yamauchi scite author profile

Y. Yamauchi

5Publications

165Citation Statements Received

77Citation Statements Given

How they've been cited

191

152

How they cite others

139

Affiliations

Kindai University, Nagoya University, Marshall Space Flight Center

Publications

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Differential velocity between solar wind protons and alpha particles in pressure balance structures

Yamauchi

2004

J. Geophys. Res.

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[1] Pressure balance structures (PBSs) are a common high-plasma beta feature in highlatitude, high-speed solar wind. They have been proposed as remnants of coronal plumes. If true, they should reflect the observation that plumes are rooted in unipolar magnetic flux concentrations in the photosphere and are heated as oppositely directed flux is advected into and reconnects with the flux concentration. A minimum variance analysis (MVA) of magnetic discontinuities in PBSs showed there is a larger proportion of tangential discontinuities than in the surrounding high-speed wind, supporting the hypothesis that plasmoids or extended current sheets are formed during reconnection at the base of plumes. To further evaluate the character of magnetic field discontinuities in PBSs, differential streaming between alpha particles and protons is analyzed here for the same sample of PBSs used in the MVA. Alpha particles in high-speed wind generally have a higher radial flow speed than protons. However, if the magnetic field is folded back on itself, as in a large-amplitude Alfvén wave, alpha particles will locally have a radial flow speed less than protons. This characteristic is used here to distinguish between folded back magnetic fields (which would contain rotational discontinuities) and tangential discontinuities using Ulysses high-latitude, high-speed solar wind data. The analysis indicates that almost all reversals in the radial magnetic field in PBSs are folded back field lines. This is found to also be true outside PBSs, supporting existing results for typical high-speed, high-latitude wind. There remains a small number of cases that appear not to be folds in the magnetic field and which may be flux tubes with both ends rooted in the Sun. The distinct difference in MVA results inside and outside PBSs remains unexplained.

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Relation between Pressure Balance Structures and polar plumes from Ulysses high latitude observations

Yamauchi

Suess

Sakurai

2002

Geophysical Research Letters

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[1] Ulysses observations have shown that pressure balance structures (PBSs) are a common feature in high-latitude, fast solar wind near solar minimum. Previous studies of Ulysses/SWOOPS plasma data suggest these PBSs may be remnants of coronal polar plumes. Here we find support for this suggestion in an analysis of PBS magnetic structure. We used Ulysses magnetometer data and applied a minimum variance analysis to magnetic discontinuities in PBSs. We found that PBSs preferentially contain tangential discontinuities, as opposed to rotational discontinuities and to non-PBS regions in the solar wind. This suggests that PBSs contain structures like current sheets or plasmoids that may be associated with network activity at the base of plumes.

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A study of density fluctuations in the solar wind acceleration region

Yamauchi¹,

Tokumaru²,

Kojima³

et al. 1998

J. Geophys. Res.

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The Magnetic Structure of Hα Macrospicules in Solar Coronal Holes

Yamauchi

Moore

Suess

et al. 2004

ApJ

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Study of Hα Macrospicules in Coronal Holes: Magnetic Structure and Evolution in Relation to Photospheric Magnetic Setting

Yamauchi

Wang

et al. 2005

ApJ

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Y. Yamauchi

Differential velocity between solar wind protons and alpha particles in pressure balance structures

Relation between Pressure Balance Structures and polar plumes from Ulysses high latitude observations

A study of density fluctuations in the solar wind acceleration region

The Magnetic Structure of Hα Macrospicules in Solar Coronal Holes

Study of Hα Macrospicules in Coronal Holes: Magnetic Structure and Evolution in Relation to Photospheric Magnetic Setting

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