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W3100193860 endingPage "30" @default.
W3100193860 startingPage "30" @default.
W3100193860 abstract "We introduce a new one-dimensional stellar evolution code, based on the existing Dartmouth code, that self-consistently accounts for the presence of a globally pervasive magnetic field. The methods involved in perturbing the equations of stellar structure, the equation of state, and the mixing-length theory of convection are presented and discussed. As a first test of the code's viability, stellar evolution models are computed for the components of a solar-type, detached eclipsing binary (DEB) system, EF Aquarii, shown to exhibit large disagreements with stellar models. The addition of the magnetic perturbation corrects the radius and effective temperature discrepancies observed in EF Aquarii. Furthermore, the required magnetic field strength at the model photosphere is within a factor of two of the magnetic field strengths estimated from the stellar X-ray luminosities measured by ROSAT and those predicted from Ca ii K line core emission. These models provide firm evidence that the suppression of thermal convection arising from the presence of a magnetic field is sufficient to significantly alter the structure of solar-type stars, producing noticeably inflated radii and cooler effective temperatures. The inclusion of magnetic effects within a stellar evolution model has a wide range of applications, from DEBs and exoplanet host stars to the donor stars of cataclysmic variables." @default.
W3100193860 created "2020-11-23" @default.
W3100193860 creator A5005351189 @default.
W3100193860 creator A5066783921 @default.
W3100193860 date "2012-11-20" @default.
W3100193860 modified "2023-09-25" @default.
W3100193860 title "SELF-CONSISTENT MAGNETIC STELLAR EVOLUTION MODELS OF THE DETACHED, SOLAR-TYPE ECLIPSING BINARY EF AQUARII" @default.
W3100193860 cites W1659875532 @default.
W3100193860 cites W1675352151 @default.
W3100193860 cites W1675935865 @default.
W3100193860 cites W1724790177 @default.
W3100193860 cites W1960425715 @default.
W3100193860 cites W1964842941 @default.
W3100193860 cites W1964919611 @default.
W3100193860 cites W1968369467 @default.
W3100193860 cites W1968505257 @default.
W3100193860 cites W1975458653 @default.
W3100193860 cites W1978249523 @default.
W3100193860 cites W1980033394 @default.
W3100193860 cites W1990786080 @default.
W3100193860 cites W1995768449 @default.
W3100193860 cites W1997047633 @default.
W3100193860 cites W1998525419 @default.
W3100193860 cites W2000430339 @default.
W3100193860 cites W2002464564 @default.
W3100193860 cites W2015876656 @default.
W3100193860 cites W2020733834 @default.
W3100193860 cites W2021545088 @default.
W3100193860 cites W2022113292 @default.
W3100193860 cites W2029045219 @default.
W3100193860 cites W2029062332 @default.
W3100193860 cites W2035454552 @default.
W3100193860 cites W2038277686 @default.
W3100193860 cites W2039452097 @default.
W3100193860 cites W2040124357 @default.
W3100193860 cites W2049973561 @default.
W3100193860 cites W2054471819 @default.
W3100193860 cites W2063655843 @default.
W3100193860 cites W2067007166 @default.
W3100193860 cites W2069193160 @default.
W3100193860 cites W2071289028 @default.
W3100193860 cites W2071665785 @default.
W3100193860 cites W2076790022 @default.
W3100193860 cites W2078671717 @default.
W3100193860 cites W2081962427 @default.
W3100193860 cites W2083362089 @default.
W3100193860 cites W2085677506 @default.
W3100193860 cites W2091208729 @default.
W3100193860 cites W2094704609 @default.
W3100193860 cites W2100421763 @default.
W3100193860 cites W2101141747 @default.
W3100193860 cites W2108906388 @default.
W3100193860 cites W2110606875 @default.
W3100193860 cites W2113074944 @default.
W3100193860 cites W2126048906 @default.
W3100193860 cites W2127054216 @default.
W3100193860 cites W2137178429 @default.
W3100193860 cites W2144219585 @default.
W3100193860 cites W2145721037 @default.
W3100193860 cites W2161791806 @default.
W3100193860 cites W2162790436 @default.
W3100193860 cites W2164080525 @default.
W3100193860 cites W2170001930 @default.
W3100193860 cites W3093080371 @default.
W3100193860 cites W3099436315 @default.
W3100193860 cites W3099676812 @default.
W3100193860 cites W3100168154 @default.
W3100193860 cites W3100312073 @default.
W3100193860 cites W3100462751 @default.
W3100193860 cites W3101456000 @default.
W3100193860 cites W3101644865 @default.
W3100193860 cites W3102175100 @default.
W3100193860 cites W3102284387 @default.
W3100193860 cites W3102704451 @default.
W3100193860 cites W3102826121 @default.
W3100193860 cites W3103077270 @default.
W3100193860 cites W3104183159 @default.
W3100193860 cites W3104911393 @default.
W3100193860 cites W3105343103 @default.
W3100193860 cites W3105358672 @default.
W3100193860 cites W3105658063 @default.
W3100193860 cites W3105728614 @default.
W3100193860 cites W3106066040 @default.
W3100193860 cites W3106304145 @default.
W3100193860 cites W3106347013 @default.
W3100193860 cites W3121947533 @default.
W3100193860 cites W4292406868 @default.
W3100193860 cites W4300065369 @default.
W3100193860 cites W4301883688 @default.
W3100193860 doi "https://doi.org/10.1088/0004-637x/761/1/30" @default.
W3100193860 hasPublicationYear "2012" @default.
W3100193860 type Work @default.
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