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Changing the ν_(max) Scaling Relation: The Need For a Mean Molecular Weight Term

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arxiv 1705.03472 v2 pith:VOTDLJA4 submitted 2017-05-09 astro-ph.SR

Changing the ν_(max) Scaling Relation: The Need For a Mean Molecular Weight Term

classification astro-ph.SR
keywords relationscalingbeendeltatermdeviationerrorsexamined
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The scaling relations that relate the average asteroseismic parameters $\Delta \nu$ and $\nu_{\max}$ to the global properties of stars are used quite extensively to determine stellar properties. While the $\Delta \nu$ scaling relation has been examined carefully and the deviations from the relation have been well documented, the $\nu_{\max}$ scaling relation has not been examined as extensively. In this paper we examine the $\nu_{\max}$ scaling relation using a set of stellar models constructed to have a wide range of mass, metallicity, and age. We find that as with $\Delta \nu$, $\nu_{\max}$ does not follow the simple scaling relation. The most visible deviation is because of a mean molecular weight term and a $\Gamma_1$ term that are commonly ignored. The remaining deviation is more difficult to address. We find that the influence of the scaling relation errors on asteroseismically derived values of $\log g$ are well within uncertainties. The influence of the errors on mass and radius estimates is small for main sequence and subgiants, but can be quite large for red giants.

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