Accurate fundamental parameters for lower main-sequence stars

Casagrande, Luca; Portinari, L.; Flynn, Chris

doi:10.1111/j.1365-2966.2006.10999.x

Cited by 196 publications

(332 citation statements)

References 127 publications

(270 reference statements)

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“…Should its theoretical spectrum F λ (see next Section) be modelled with sufficient precision, and its angular diameter θ accurately measured, its absolute flux would be straightforward to obtain. In practice, its pole-on and rapidly rotating nature, as well as its suspected variability (although longward of 12µm, Aumann et al 1984, and thus of no impact on the colours investigated here) complicate things (also see the discussion in Casagrande et al 2006). In practice, the best approach resorts to the use of a composite absolutely calibrated spectrum for different wavelength regions.…”

Section: St Mag Systemmentioning

confidence: 99%

“…Brighter than this threshold the difference between the asinh and Pogson magnitudes is negligible and rapidly goes to zero. This makes the Pogson formulation outlined 7 The only difference is the BV(RI) C absolute calibration in Casagrande et al (2010), which is based on earlier HST spectrophotometry of α Lyr (as reported in Table A2 of Casagrande et al 2006), producing T eff values that differ by only a few Kelvin. However, this difference essentially cancels out when the solar twins are used in the calibrating process; i.e., the absolute calibration derived from Bohlin (2007) agrees with that based on the solar twins.…”

Section: Sloan Digital Sky Survey Ugrizmentioning

confidence: 99%

“…where ZP ζ is derived for each bandpass ζ using a star of known absolute flux f λ = f and observed magnitude m VEGA = m ,ζ (e.g., Bessell et al 1998;Girardi et al 2002;Casagrande et al 2006, where our adopted magnitudes for Vega are reported in the third column of Table 1). Thus…”

Section: St Mag Systemmentioning

confidence: 99%

See 2 more Smart Citations

Synthetic stellar photometry – I. General considerations and new transformations for broad-band systems

Casagrande¹,

VandenBerg²

2014

Monthly Notices of the Royal Astronomical Society

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After a pedagogical introduction to the main concepts of synthetic photometry, colours and bolometric corrections in the Johnson-Cousins, 2MASS, and HST-ACS/WFC3 photometric systems are generated from MARCS synthetic fluxes for various [Fe/H] and [α/Fe] combinations, and virtually any value of E(B − V) 0.7. The successes and failures of model fluxes in reproducing the observed magnitudes are highlighted. Overall, extant synthetic fluxes predict quite realistic broad-band colours and bolometric corrections, especially at optical and longer wavelengths: further improvements of the predictions for the blue and ultraviolet spectral regions await the use of hydrodynamic models where the microturbulent velocity is not treated as a free parameter. We show how the morphology of the colour-magnitude diagram (CMD) changes for different values of [Fe/H] and [α/Fe]; in particular,how suitable colour combinations can easily discriminate between red giant branch and lower main sequence populations with different [α/Fe], due to the concomitant loops and swings in the CMD. We also provide computer programs to produce tables of synthetic bolometric corrections as well as routines to interpolate in them. These colour-T eff -metallicity relations may be used to convert isochrones for different chemical compositions to various bandpasses assuming observed reddening values, thus bypassing the standard assumption of a constant colour excess for stars of different spectral type. We also show how such an assumption can lead to significant systematic errors. The MARCS transformations presented in this study promise to provide important constraints on our understanding of the multiple stellar populations found in globular clusters (e.g., the colours of lower main sequence stars are predicted to depend strongly on [α/Fe]) and of those located towards/in the Galactic bulge.

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Section: St Mag Systemmentioning

confidence: 99%

Section: Sloan Digital Sky Survey Ugrizmentioning

confidence: 99%

See 1 more Smart Citation

Synthetic stellar photometry – I. General considerations and new transformations for broad-band systems

Casagrande¹,

VandenBerg²

2014

Monthly Notices of the Royal Astronomical Society

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257

321

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“…Recent observations also seem to support a MS broadening in 47 Tuc (Anderson et al 2009 Casagrande et al (2006) to translate the dereddened maximum observed colour split between the bMS and rMS returns Δ log T eff = 0.0185 implying ΔY = 0.144 and Y bMS = 0.39 (Fig. 2).…”

Section: Application To Globular Clustersmentioning

confidence: 90%

“…More recently, Casagrande et al (2006Casagrande et al ( , 2007 further improved the analysis by compiling a much larger sample of K dwarfs with bolometric magnitudes and effective temperatures derived via InfraRed Flux Method (IRFM). The implementation adopted for the IRFM resorted to homogeneous multi-band photometry to determine in a fully self-consistent, (almost) model independent way T eff and M Bol .…”

Section: Introductionmentioning

confidence: 99%

Revisiting the helium abundance in globular clusters with multiple main sequences

2009

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Abstract. For nearby K dwarfs, the broadening of the observed Main Sequence at low metallicities is much narrower than expected from isochrones with the standard helium-to-metal enrichment ratio ΔY /ΔZ ∼ 2. A much higher value, of order 10, is formally needed to reproduce the observed broadening, but it returns helium abundances in awkward contrast with Big Bang Nucleosynthesis. This steep enrichment ratio resembles, on a milder scale, the very high ΔY /ΔZ estimated from the multiple Main Sequences observed in some metal-poor Globular Clusters. We argue that a revision of low Main Sequence stellar models, suggested from nearby stars, could help to reduce the overwhelmingly high ΔY /ΔZ deduced so far for those clusters. Under the most favourable assumptions, the estimated helium content for the enriched populations may decrease from Y 0.4 to as low as Y 0.3, with intermediate values being plausible.

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Photometric Stellar Parameters for Asteroseismology and Galactic Studies

Casagrande

2014

Asteroseismology of Stellar Populations in the Milky Way

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Asteroseismology has the capability of delivering stellar properties which would otherwise be inaccessible, such as radii, masses and thus ages of stars. When coupling this information with classical determinations of stellar parameters, such as metallicities, effective temperatures and angular diameters, powerful new diagnostics for both stellar and Galactic studies can be obtained. I review how different photometric systems and filters carry important information on classical stellar parameters, the accuracy at which those parameters can be derived, and summarize some of the calibrations available in the literature for late-type stars. Recent efforts in combining classical and asteroseismic parameters are discussed, and the uniqueness of their intertwine is highlighted.

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Accurate fundamental parameters for lower main-sequence stars

Cited by 196 publications

References 127 publications

Synthetic stellar photometry – I. General considerations and new transformations for broad-band systems

Synthetic stellar photometry – I. General considerations and new transformations for broad-band systems

Revisiting the helium abundance in globular clusters with multiple main sequences

Photometric Stellar Parameters for Asteroseismology and Galactic Studies

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