M. Schuessler scite author profile

M. Schuessler

5Publications

256Citation Statements Received

65Citation Statements Given

How they've been cited

265

230

How they cite others

Affiliations

Max Planck Institute for Solar System Research, Max Planck Institute for Metabolism Research

Publications

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The dynamical disconnection of sunspots from their magnetic roots

Schuessler

Rempel

2005

A&A

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Abstract. After a dynamically active emergence phase, magnetic flux at the solar surface soon ceases to show strong signs of the subsurface dynamics of its parent magnetic structure. This indicates that some kind of disconnection of the emerged flux from its roots in the deep convection zone should take place. We propose a mechanism for the dynamical disconnection of the surface flux based upon the buoyant upflow of plasma along the field lines. Such flows arise in the upper part of a rising flux loop during the final phases of its buoyant ascent towards the surface. The combination of the pressure buildup by the upflow and the cooling of the upper layers of an emerged flux tube by radiative losses at the surface lead to a progressive weakening of the magnetic field in several Mm depth. When the field strength has become sufficiently low, convective motions and the fluting instability disrupt the flux tube into thin, passively advected flux fragments, thus providing a dynamical disconnection of the emerged part from its roots. We substantiate this scenario by considering the quasi-static evolution of a sunspot model under the effects of radiative cooling, convective energy transport, and pressure buildup by a prescribed inflow at the bottom of the model. For inflow speeds in the range shown by simulations of thin flux tubes, we find that the disconnection takes place in a depth between 2 and 6 Mm for disconnection times up to 3 days.

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Self-Consistent Models for Small Photospheric Flux Tubes

Deinzer¹,

Hensler²,

Schmitt³

et al. 1983

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``Explosion'' and Intensification of Magnetic Flux Tubes

Moreno‐Insertis¹,

Caligari²,

Schuessler³

1995

ApJ

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Waves and instabilities of a toroidal magnetic flux tube in a rotating star

Ferriz-Mas¹,

Schuessler²

1994

ApJ

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Does the butterfly diagram indicate a solar flux-transport dynamo?

Schuessler

Schmitt

2004

A&A

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Abstract. We address the question whether the properties of the observed latitude-time diagram of sunspot occurrence (the butterfly diagram) provide evidence for the operation of a flux-transport dynamo, which explains the migration of the sunspot zones and the period of the solar cycle in terms of a deep equatorward meridional flow. We show that the properties of the butterfly diagram are equally well reproduced by a conventional dynamo model with migrating dynamo waves, but without transport of magnetic flux by a flow. These properties seem to be generic for an oscillatory and migratory field of dipole parity and thus do not permit an observational distinction between different dynamo approaches.

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M. Schuessler

The dynamical disconnection of sunspots from their magnetic roots

Self-Consistent Models for Small Photospheric Flux Tubes

``Explosion'' and Intensification of Magnetic Flux Tubes

Waves and instabilities of a toroidal magnetic flux tube in a rotating star

Does the butterfly diagram indicate a solar flux-transport dynamo?

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