Modulated cycles in an illustrative solar dynamo model with competing alpha effects
The large-scale magnetic field in the Sun varies with a period of approximately 22 years, although the amplitude of the cycle is subject to long-term modulation with recurrent phases of significantly reduced magnetic activity. It is believed that a hydromagnetic dynamo is responsible for producing t...
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| Published in | arXiv.org |
|---|---|
| Main Authors | , |
| Format | Paper Journal Article |
| Language | English |
| Published |
Ithaca
Cornell University Library, arXiv.org
26.03.2014
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| Online Access | Get full text |
| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.1403.6604 |
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| Abstract | The large-scale magnetic field in the Sun varies with a period of approximately 22 years, although the amplitude of the cycle is subject to long-term modulation with recurrent phases of significantly reduced magnetic activity. It is believed that a hydromagnetic dynamo is responsible for producing this large-scale field, although this dynamo process is not well understood. Within the framework of mean-field dynamo theory, our aim is to investigate how competing mechanisms for poloidal field regeneration (namely a time delayed Babcock-Leighton surface alpha-effect and an interface-type alpha-effect), can lead to the modulation of magnetic activity in a deep-seated solar dynamo model. We solve the standard alpha-omega dynamo equations in one spatial dimension, including source terms corresponding to both of the the competing alpha-effects in the evolution equation for the poloidal field. This system is solved using two different methods. In addition to solving the one-dimensional partial differential equations directly, using numerical techniques, we also use a local approximation to reduce the governing equations to a set of coupled ordinary differential equations (ODEs), which are studied using a combination of analytical and numerical methods. In the ODE model, it is straightforward to find parameters such that a series of bifurcations can be identified as the time delay is increased, with the dynamo transitioning from periodic states to chaotic states via multiply periodic solutions. Similar transitions can be observed in the full model, with the chaotically modulated solutions exhibiting solar-like behaviour. |
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| AbstractList | Cole, L. & Bushby P. J. 2014, A&A, 563, A116 The large-scale magnetic field in the Sun varies with a period of
approximately 22 years, although the amplitude of the cycle is subject to
long-term modulation with recurrent phases of significantly reduced magnetic
activity. It is believed that a hydromagnetic dynamo is responsible for
producing this large-scale field, although this dynamo process is not well
understood.
Within the framework of mean-field dynamo theory, our aim is to investigate
how competing mechanisms for poloidal field regeneration (namely a time delayed
Babcock-Leighton surface alpha-effect and an interface-type alpha-effect), can
lead to the modulation of magnetic activity in a deep-seated solar dynamo
model.
We solve the standard alpha-omega dynamo equations in one spatial dimension,
including source terms corresponding to both of the the competing alpha-effects
in the evolution equation for the poloidal field. This system is solved using
two different methods. In addition to solving the one-dimensional partial
differential equations directly, using numerical techniques, we also use a
local approximation to reduce the governing equations to a set of coupled
ordinary differential equations (ODEs), which are studied using a combination
of analytical and numerical methods.
In the ODE model, it is straightforward to find parameters such that a series
of bifurcations can be identified as the time delay is increased, with the
dynamo transitioning from periodic states to chaotic states via multiply
periodic solutions. Similar transitions can be observed in the full model, with
the chaotically modulated solutions exhibiting solar-like behaviour. The large-scale magnetic field in the Sun varies with a period of approximately 22 years, although the amplitude of the cycle is subject to long-term modulation with recurrent phases of significantly reduced magnetic activity. It is believed that a hydromagnetic dynamo is responsible for producing this large-scale field, although this dynamo process is not well understood. Within the framework of mean-field dynamo theory, our aim is to investigate how competing mechanisms for poloidal field regeneration (namely a time delayed Babcock-Leighton surface alpha-effect and an interface-type alpha-effect), can lead to the modulation of magnetic activity in a deep-seated solar dynamo model. We solve the standard alpha-omega dynamo equations in one spatial dimension, including source terms corresponding to both of the the competing alpha-effects in the evolution equation for the poloidal field. This system is solved using two different methods. In addition to solving the one-dimensional partial differential equations directly, using numerical techniques, we also use a local approximation to reduce the governing equations to a set of coupled ordinary differential equations (ODEs), which are studied using a combination of analytical and numerical methods. In the ODE model, it is straightforward to find parameters such that a series of bifurcations can be identified as the time delay is increased, with the dynamo transitioning from periodic states to chaotic states via multiply periodic solutions. Similar transitions can be observed in the full model, with the chaotically modulated solutions exhibiting solar-like behaviour. |
| Author | Cole, Laura Bushby, Paul |
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| BackLink | https://doi.org/10.48550/arXiv.1403.6604$$DView paper in arXiv https://doi.org/10.1051/0004-6361/201323285$$DView published paper (Access to full text may be restricted) |
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| Snippet | The large-scale magnetic field in the Sun varies with a period of approximately 22 years, although the amplitude of the cycle is subject to long-term... Cole, L. & Bushby P. J. 2014, A&A, 563, A116 The large-scale magnetic field in the Sun varies with a period of approximately 22 years, although the amplitude... |
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| Title | Modulated cycles in an illustrative solar dynamo model with competing alpha effects |
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