Network boundary origins of fast solar wind seen in the low transition region?

Free access article

Issue		A&A Volume 421, Number 1, July I 2004


Page(s)		339 - 348
Section		The Sun
DOI		http://dx.doi.org/10.1051/0004-6361:20034348

A&A 421, 339-348 (2004)
DOI: 10.1051/0004-6361:20034348

Network boundary origins of fast solar wind seen in the low transition region?

M. D. Popescu^{1, 2}, J. G. Doyle¹ and L. D. Xia¹

¹ Armagh Observatory, College Hill, Armagh BT61 9DG, N. Ireland
e-mail: [mdp;jgd;xld]@star.arm.ac.uk
² Astronomical Institute of the Romanian Academy, 75212 Bucharest 28, Romania

(Received 18 September 2003 / Accepted 3 March 2004)

Abstract
We present a study of a high spatial resolution raster acquired on-disk with the SUMER (Solar Ultraviolet Measurements of Emitted Radiation) grating spectrograph on SoHO (the Solar and Heliospheric Observatory) in a polar Coronal Hole (CH) region. We analyse two EUV emission lines, representing the properties of solar plasma in the low transition region (TR), O III 703.87 Å (maximum electron temperature, $T_{\rm e}\approx~8\times 10^4$ K), as well as in the corona, Mg IX 706.02 Å ( $T_{\rm e}\approx 10^6$ K). For Mg IX, we find that low CH intensities correspond to negative Doppler velocities (outflows) of $\approx$ 5 km s ^-1. Along the quiet Sun (QS)/CH boundaries, the coronal plasma begins to be more red-shifted. A coronal bright point (BP) located within the CH is blue-shifted in the coronal line. In the TR line, the outer region of the BP is red-shifted at $\approx$ 5 km s ^-1, but, towards its middle, the shift is around zero. The O III line, although it shows predominant downward motion of $\approx$ 5.5 km s ^-1 in the CH and $\approx$ 6 km s ^-1 in the QS, it also has blue-shifts arranged in a small-scale network pattern with average negative values of 3.5 km s ^-1 in CH and 3 km s ^-1 in the QS. The blue-shifts are caused either by plasma outflows of a few km s ^-1, or by transient events such as bi-directional jets which dislocate plasma to upward velocities even higher than 100 km s ^-1. The outflows originate predominantly from the intersection between the magnetic network and the inter-network cells (network boundaries). The bi-directional jets are found along the CH/QS boundaries, and, moreover, in locations where the plasma seen in the Mg IX line is blue-shifted, but very close to small red-shifted regions. Another interesting change in behaviour is observed at the QS/CH boundaries, in the O III line, where plasma from the network changes its velocity sign, becoming red-shifted. Our results constitute the lowest-in-altitude observed signature of plasma outflows from the chromospheric network boundaries inside a CH. We have derived this conclusion from direct correlation between Doppler velocity and the intensity of the O III 702.87 Å line.

Key words: Sun: UV radiation -- Sun: corona -- Sun: transition region -- Sun: solar wind

Offprint request: M. D. Popescu, mdp@star.arm.ac.uk

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