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Toloza Castillo, Odette Fabiola
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Nombre
Toloza Castillo, Odette Fabiola
Departamento
Campus / Sede
Campus Casa Central ValparaĂso
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ORCID
Scopus Author ID
36012227500
Now showing 1 - 2 of 2
- PublicationSystematic uncertainties in the characterization of helium-dominated metal-polluted white dwarf atmospheres(2023-04-01)
;Izquierdo, Paula ;Gänsicke, Boris T. ;RodrĂguez-Gil, Pablo ;Koester, Detlev; ;Gentile Fusillo, Nicola P. ;Pala, Anna F.Tremblay, Pier EmmanuelAbstract White dwarf photospheric parameters are usually obtained by means of spectroscopic or photometric analysis. These results are not always consistent with each other, with the published values often including just the statistical uncertainties. The differences are more dramatic for white dwarfs with helium-dominated photospheres, so to obtain realistic uncertainties we have analysed a sample of 13 of these white dwarfs, applying both techniques to up to three different spectroscopic and photometric data sets for each star. We found mean standard deviations of $\left\langle \sigma {T_{\mathrm{eff}}}\right\rangle = 524$ K, $\left\langle \sigma {\log g}\right\rangle = 0.27$ dex and $\left\langle \sigma {\log (\mathrm{H/He})}\right\rangle = 0.31$ dex for the effective temperature, surface gravity, and relative hydrogen abundance, respectively, when modelling diverse spectroscopic data. The photometric fits provided mean standard deviations up to $\left\langle \sigma {T_{\mathrm{eff}}}\right\rangle = 1210$ K and $\left\langle \sigma {\log g}\right\rangle = 0.13$ dex. We suggest these values to be adopted as realistic lower limits to the published uncertainties in parameters derived from spectroscopic and photometric fits for white dwarfs with similar characteristics. In addition, we investigate the effect of fitting the observational data adopting three different photospheric chemical compositions. In general, pure helium model spectra result in larger Teff compared to those derived from models with traces of hydrogen. The log g shows opposite trends: smaller spectroscopic values and larger photometric ones when compared to models with hydrogen. The addition of metals to the models also affects the derived atmospheric parameters, but a clear trend is not found.Scopus© Citations 9 - PublicationWhite dwarf pollution by hydrated planetary remnants: Hydrogen and metals in WD J204713.76-125908.9(2020-11-01)
;Hoskin, Matthew J.; ;Gänsicke, Boris T. ;Raddi, Roberto ;Koester, Detlev ;Pala, Anna F. ;Manser, Christopher J. ;Farihi, Jay ;Belmonte, Maria Teresa ;Hollands, Mark ;Fusillo, Nicola GentileSwan, AndrewABSTRACT WD J204713.76–125908.9 is a new addition to the small class of white dwarfs with helium-dominated photospheres that exhibit strong Balmer absorption lines and atmospheric metal pollution. The exceptional abundances of hydrogen observed in these stars may be the result of accretion of water-rich rocky bodies. We obtained far-ultraviolet and optical spectroscopy of WD J204713.76–125908.9 using the Cosmic Origin Spectrograph on-board the Hubble Space Telescope and X-shooter on the Very Large Telescope, and identify photospheric absorption lines of nine metals: C, O, Mg, Si, P, S, Ca, Fe, and Ni. The abundance ratios are consistent with the steady-state accretion of exo-planetesimal debris rich in the volatile elements carbon and oxygen, and the transitional element sulphur, by factors of 17, 2, and 4, respectively, compared to the bulk Earth. The parent body has a composition akin to Solar system carbonaceous chondrites, and the inferred minimum mass, 1.6 × 1020 g, is comparable to an asteroid 23 km in radius. We model the composition of the disrupted parent body, finding from our simulations a median water mass fraction of 8 per cent.Scopus© Citations 30