Emergence of small-scale magnetic loops in the quiet-sun internetwork

R. Centeno; H. Socas-Navarro; B. Lites; M. Kubo; Z. Frank; R. Shine; T. Tarbell; A. Title; K. Ichimoto; S. Tsuneta; Y. Katsukawa; Y. Suematsu; T. Shimizu; S. Nagata

doi:10.1086/521726

Emergence of small-scale magnetic loops in the quiet-sun internetwork

R. Centeno, H. Socas-Navarro, B. Lites, M. Kubo, Z. Frank, R. Shine, T. Tarbell, A. Title, K. Ichimoto, S. Tsuneta, Y. Katsukawa, Y. Suematsu, T. Shimizu, S. Nagata

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Abstract

We study the emergence of magnetic flux at very small spatial scales (less than 2″) in the quiet-Sun internetwork. To this aim, a time series of spectropolarimetric maps was taken at disk center using the instrument SP/SOT on board Hinode. The LTE inversion of the full Stokes vector measured in the Fe i 6301 and 6302 Å lines allows us to retrieve the magnetic flux and topology in the region of study. In the example presented here, the magnetic flux emerges within a granular structure. The horizontal magnetic field appears prior to any significant amount of vertical field. As time goes on, the traces of the horizontal field disappear, while the vertical dipoles drift - carried by the plasma motions - toward the surrounding intergranular lanes. These events take place within typical granulation timescales.

Original language	English
Pages (from-to)	L137-L140
Journal	Astrophysical Journal
Volume	666
Issue number	2 PART 2
DOIs	https://doi.org/10.1086/521726
State	Published - 2007

Keywords

Magnetic fields
Sun: photosphere
Techniques: polarimetric

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10.1086/521726

Cite this

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title = "Emergence of small-scale magnetic loops in the quiet-sun internetwork",

abstract = "We study the emergence of magnetic flux at very small spatial scales (less than 2″) in the quiet-Sun internetwork. To this aim, a time series of spectropolarimetric maps was taken at disk center using the instrument SP/SOT on board Hinode. The LTE inversion of the full Stokes vector measured in the Fe i 6301 and 6302 {\AA} lines allows us to retrieve the magnetic flux and topology in the region of study. In the example presented here, the magnetic flux emerges within a granular structure. The horizontal magnetic field appears prior to any significant amount of vertical field. As time goes on, the traces of the horizontal field disappear, while the vertical dipoles drift - carried by the plasma motions - toward the surrounding intergranular lanes. These events take place within typical granulation timescales.",

keywords = "Magnetic fields, Sun: photosphere, Techniques: polarimetric",

author = "R. Centeno and H. Socas-Navarro and B. Lites and M. Kubo and Z. Frank and R. Shine and T. Tarbell and A. Title and K. Ichimoto and S. Tsuneta and Y. Katsukawa and Y. Suematsu and T. Shimizu and S. Nagata",

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doi = "10.1086/521726",

language = "English",

volume = "666",

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journal = "Astrophysical Journal",

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TY - JOUR

T1 - Emergence of small-scale magnetic loops in the quiet-sun internetwork

AU - Centeno, R.

AU - Socas-Navarro, H.

AU - Lites, B.

AU - Kubo, M.

AU - Frank, Z.

AU - Shine, R.

AU - Tarbell, T.

AU - Title, A.

AU - Ichimoto, K.

AU - Tsuneta, S.

AU - Katsukawa, Y.

AU - Suematsu, Y.

AU - Shimizu, T.

AU - Nagata, S.

PY - 2007

Y1 - 2007

N2 - We study the emergence of magnetic flux at very small spatial scales (less than 2″) in the quiet-Sun internetwork. To this aim, a time series of spectropolarimetric maps was taken at disk center using the instrument SP/SOT on board Hinode. The LTE inversion of the full Stokes vector measured in the Fe i 6301 and 6302 Å lines allows us to retrieve the magnetic flux and topology in the region of study. In the example presented here, the magnetic flux emerges within a granular structure. The horizontal magnetic field appears prior to any significant amount of vertical field. As time goes on, the traces of the horizontal field disappear, while the vertical dipoles drift - carried by the plasma motions - toward the surrounding intergranular lanes. These events take place within typical granulation timescales.

AB - We study the emergence of magnetic flux at very small spatial scales (less than 2″) in the quiet-Sun internetwork. To this aim, a time series of spectropolarimetric maps was taken at disk center using the instrument SP/SOT on board Hinode. The LTE inversion of the full Stokes vector measured in the Fe i 6301 and 6302 Å lines allows us to retrieve the magnetic flux and topology in the region of study. In the example presented here, the magnetic flux emerges within a granular structure. The horizontal magnetic field appears prior to any significant amount of vertical field. As time goes on, the traces of the horizontal field disappear, while the vertical dipoles drift - carried by the plasma motions - toward the surrounding intergranular lanes. These events take place within typical granulation timescales.

KW - Magnetic fields

KW - Sun: photosphere

KW - Techniques: polarimetric

UR - https://www.scopus.com/pages/publications/40249089166

U2 - 10.1086/521726

DO - 10.1086/521726

M3 - Article

AN - SCOPUS:40249089166

SN - 0004-637X

VL - 666

SP - L137-L140

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2 PART 2

ER -

Emergence of small-scale magnetic loops in the quiet-sun internetwork

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Keywords

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