2012
DOI: 10.1051/0004-6361/201118005
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Shear and vortex motions in a forming sunspot

Abstract: Aims. We measure proper motions of fine structures in a forming sunspot to infer information about the dynamics of flux emergence at the sub-photospheric level. Methods. The active region NOAA 11024 was observed with the Vacuum Tower Telescope at Observatorio del Teide/Tenerife over several days in July 2009. Here, we concentrate on a two-hour sequence taken on July 4, when the leading spot was at an early stage of its evolution. Speckle reconstructions from Ca ii K images and polarimetric data in Fe i λ6173 a… Show more

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Cited by 10 publications
(5 citation statements)
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“…This seems possible because it would take some two hours to cross the LB if the flow has a speed of 1 km s −1 (Hirzberger et al 2002;Louis et al 2008). Visual inspection of our G-band movie supports the presence of such a flow: Proper motions are seen that could be a signature of shear flows in the LB (Bello González et al 2011).…”
Section: Light Bridges As Channels For Magnetic Fluxsupporting
confidence: 53%
“…This seems possible because it would take some two hours to cross the LB if the flow has a speed of 1 km s −1 (Hirzberger et al 2002;Louis et al 2008). Visual inspection of our G-band movie supports the presence of such a flow: Proper motions are seen that could be a signature of shear flows in the LB (Bello González et al 2011).…”
Section: Light Bridges As Channels For Magnetic Fluxsupporting
confidence: 53%
“…The southern footpoint of the prominence was lying in close proximity to the active region. Photospheric vortex flows are more frequent near the active region (Bello González et al 2012;Dhara et al 2014) thus it may explain why the southern footpoint had manifested larger twist as compared to the northern footpoint which was anchored at the quiet region of the Sun. However, it should be noted that the photospheric vortex motions cannot be measured because the footpoints of the prominence were at the limb.…”
Section: Discussionmentioning
confidence: 99%
“…The separation between the parent and fragment, estimated as the distance between their centroid positions, increased almost linearly from approximately 10 to 23 in 5 days. As the rotation of the fragment is more pronounced than its parent, it would suggest that the sunspot as a whole is comprised of several individual magnetic strands rooted to a common flux system rooted deeper in the photosphere (Bello González et al 2012).…”
Section: Rotation Of Fragment About Parent Sunspotmentioning
confidence: 99%