M. A. Dodero scite author profile

Abstract. This study examines the physical conditions of the outer solar corona in order to identify the regions where the slow solar wind is accelerated and to investigate the latitudinal transition from slow to fast wind during the minimum of the solar cycle. The analysis is based on observations of six streamers obtained during the years of solar minimum, 1996 and 1997, with the Ultraviolet Coronagraph Spectrometer (UVCS) onboard the Solar and Heliospheric Observatory (SOHO). The outflow velocity of the oxygen ions and the electron density of the coronal plasma are determined in altitude ranging from 1.5 to 3.5 solar radii (R ). The adopted diagnostic method, based on spectroscopic analysis of the O VI 1032 and 1038 Å lines, fully accounts for the large expansion factor of the magnetic field lines expected in the regions surrounding the streamers. The analysis leads to the conclusion that the slow coronal wind is observed (i) in the region external to and running along the streamer boundary; and (ii) in the region above the streamer core beyond 2.7 R , where the transition between closed and open magnetic field lines takes place and the heliospheric current sheet forms. Regions in the immediate vicinity of the streamer boundary can be identified with the edges of the large polar coronal holes that characterize solar minimum. Results point to gradual variations of the properties of a coronal hole from the streamer boundary to its polar core, most likely related to the topology of the coronal magnetic field.

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Spectroscopic measurement of the plasma electron density and outflow velocity in a polar coronal hole

Antonucci

Dodero

Giordano

et al. 2004

A&A

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Abstract.A new spectroscopic method, aimed to derive the plasma electron density and outflow velocity in expanding solar coronal regions, is discussed in this paper. The method is based on the analysis of a pair of coronal lines emitted via collisional and radiative excitation by the same ion, such as the O VI 1032, 1037 Å doublet. The merit of this technique consists in allowing us to derive at the same time electron density and outflow velocity of the coronal plasma from nearby lines detectable with the same instrument, provided the constraint on mass flux conservation along the flow tube connecting solar corona and heliosphere is taken into account. The results obtained from the analysis of the OVI emission imply that the physical conditions of a polar coronal hole plasma, observed during minimum activity, are the following. The electron density decreases from 4 × 10 5 cm −3 at 1.7 R to 2−4 × 10 4 cm −3 at 3.1 R , whereas the outflow velocity of the oxygen ions is monotonically increasing to reach 350-500 km s −1 at 3.1 R , depending on the assumptions on the degree of anisotropy of the velocity distribution of the ions. These results of the velocity of expansion of the fast wind confirm those obtained with Doppler dimming techniques when assuming the lowest observed density values for the coronal hole plasma. This implies that, for a rarified corona, the outflow velocity of the fast solar wind in polar holes can be traced by the motion of the O VI ions at least up to 2.4 R . The analysis also shows that the degree of anisotropy of the oxygen ions, due to the acceleration of the ions across the magnetic field in a coronal hole, exhibits a steep increase and that the geometry of the flow tube diverges very rapidly low down in the inner corona/transition region. The observations of the extended corona analysed in this paper are obtained with the Ultraviolet Coronagraph Spectrometer of the SOHO space mission.

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Dodero

Antonucci

Giordano

et al. 1998

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2000

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Outflow velocity of the O⁺⁵ions in polar coronal holes out to 5R$_\odot$

Telloni

Antonucci

Dodero

2007

A&A

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M. A. Dodero

Slow wind and magnetic topology in the solar minimum corona in 1996–1997

Spectroscopic measurement of the plasma electron density and outflow velocity in a polar coronal hole

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Untitled

Outflow velocity of the O⁺⁵ions in polar coronal holes out to 5R$_\odot$

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M. A. Dodero

Slow wind and magnetic topology in the solar minimum corona in 1996–1997

Spectroscopic measurement of the plasma electron density and outflow velocity in a polar coronal hole

Untitled

Untitled

Outflow velocity of the O+5ions in polar coronal holes out to 5R$_\odot$

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Outflow velocity of the O⁺⁵ions in polar coronal holes out to 5R$_\odot$