Model selection for spectro-polarimetric inversions
Inferring magnetic and thermodynamic information from spectropolarimetric observations relies on the assumption of a parameterized model atmosphere whose parameters are tuned by comparison with observations. Often, the choice of the underlying atmospheric model is based on subjective reasons. In oth...
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24-01-2012
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| Abstract | Inferring magnetic and thermodynamic information from spectropolarimetric
observations relies on the assumption of a parameterized model atmosphere whose
parameters are tuned by comparison with observations. Often, the choice of the
underlying atmospheric model is based on subjective reasons. In other cases,
complex models are chosen based on objective reasons (for instance, the
necessity to explain asymmetries in the Stokes profiles) but it is not clear
what degree of complexity is needed. The lack of an objective way of comparing
models has, sometimes, led to opposing views of the solar magnetism because the
inferred physical scenarios are essentially different. We present the first
quantitative model comparison based on the computation of the Bayesian evidence
ratios for spectropolarimetric observations. Our results show that there is not
a single model appropriate for all profiles simultaneously. Data with moderate
signal-to-noise ratios favor models without gradients along the line-of-sight.
If the observations shows clear circular and linear polarization signals above
the noise level, models with gradients along the line are preferred. As a
general rule, observations with large signal-to-noise ratios favor more complex
models. We demonstrate that the evidence ratios correlate well with simple
proxies. Therefore, we propose to calculate these proxies when carrying out
standard least-squares inversions to allow for model comparison in the future. |
|---|---|
| AbstractList | Inferring magnetic and thermodynamic information from spectropolarimetric
observations relies on the assumption of a parameterized model atmosphere whose
parameters are tuned by comparison with observations. Often, the choice of the
underlying atmospheric model is based on subjective reasons. In other cases,
complex models are chosen based on objective reasons (for instance, the
necessity to explain asymmetries in the Stokes profiles) but it is not clear
what degree of complexity is needed. The lack of an objective way of comparing
models has, sometimes, led to opposing views of the solar magnetism because the
inferred physical scenarios are essentially different. We present the first
quantitative model comparison based on the computation of the Bayesian evidence
ratios for spectropolarimetric observations. Our results show that there is not
a single model appropriate for all profiles simultaneously. Data with moderate
signal-to-noise ratios favor models without gradients along the line-of-sight.
If the observations shows clear circular and linear polarization signals above
the noise level, models with gradients along the line are preferred. As a
general rule, observations with large signal-to-noise ratios favor more complex
models. We demonstrate that the evidence ratios correlate well with simple
proxies. Therefore, we propose to calculate these proxies when carrying out
standard least-squares inversions to allow for model comparison in the future. |
| Author | Gonzalez, M. J. Martinez Sainz, R. Manso Suarez, D. Orozco Ramos, A. Asensio Viticchie, B Socas-Navarro, H |
| Author_xml | – sequence: 1 givenname: A. Asensio surname: Ramos fullname: Ramos, A. Asensio – sequence: 2 givenname: R. Manso surname: Sainz fullname: Sainz, R. Manso – sequence: 3 givenname: M. J. Martinez surname: Gonzalez fullname: Gonzalez, M. J. Martinez – sequence: 4 givenname: B surname: Viticchie fullname: Viticchie, B – sequence: 5 givenname: D. Orozco surname: Suarez fullname: Suarez, D. Orozco – sequence: 6 givenname: H surname: Socas-Navarro fullname: Socas-Navarro, H |
| BackLink | https://doi.org/10.1088/0004-637X/748/2/83$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.1201.5063$$DView paper in arXiv |
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| Snippet | Inferring magnetic and thermodynamic information from spectropolarimetric
observations relies on the assumption of a parameterized model atmosphere whose... |
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| Title | Model selection for spectro-polarimetric inversions |
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