Your search keyword '"Anna Hourihane"' showing total 4 results

1. A spectroscopic quadruple as a possible progenitor of sub-Chandrasekhar type Ia supernovae

Author

Thibault Merle, Adrian S. Hamers, Sophie Van Eck, Alain Jorissen, Mathieu Van der Swaelmen, Karen Pollard, Rodolfo Smiljanic, Dimitri Pourbaix, Tomaž Zwitter, Gregor Traven, Gerry Gilmore, Sofia Randich, Anaïs Gonneau, Anna Hourihane, Germano Sacco, and C. Clare Worley

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics - Astrophysics of Galaxies, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

Binaries have received much attention as possible progenitors of Type Ia supernova (SNIa) explosions, but long-term gravitational effects in tight triple or quadruple systems could also play a key role in producing SNIa. Here we report on the properties of a spectroscopic quadruple (SB4) found within a star cluster: the 2+2 hierarchical system HD 74438. Its membership in the open cluster IC 2391 makes it the youngest (43 My) SB4 discovered so far and among the quadruple systems with the shortest outer orbital period. The eccentricity of the 6 y outer period is 0.46 and the two inner orbits, with periods of 20.5 d and 4.4 d, and eccentricities of 0.36 and 0.15, are not coplanar. Using an innovative combination of ground-based high resolution spectroscopy and Gaia/Hipparcos astrometry, we show that this system is undergoing secular interaction that likely pumped the eccentricity of one of the inner orbits higher than expected for the spectral types of its components. We compute the future evolution of HD 74438 and show that this system is an excellent candidate progenitor of sub-Chandrasekhar SNIa through white dwarf (WD) mergers. Taking into account the contribution of this specific type of SNIa better accounts for the chemical evolution of iron-peak elements in the Galaxy than considering only near Chandrasekhar-mass SNIa., accepted for publication in Nature Astronomy

Published

2022

2. Vitamin D Questionnaire Validation and exploration of association with serum 25-hydroxyvitamin D in a UK adult population: a cross-sectional study and pilot study

Author

Janie McClusky, Anna Hourihane, Raquel Revuelta Iniesta, and Dominque Glatt

Subjects

medicine.medical_specialty, business.industry, Cross-sectional study, Internal medicine, Adult population, Vitamin D and neurology, Medicine, Serum 25 hydroxyvitamin d, business

Published

2019

3. Gaia–ESO Survey: INTRIGOSS—A New Library of High-resolution Synthetic Spectra.

Author

Mariagrazia Franchini, Carlo Morossi, Paolo Di Marcantonio, Miguel Chavez, Gerry Gilmore, Sofia Randich, Ettore Flaccomio, Sergey E. Koposov, Andreas J. Korn, Amelia Bayo, Giovanni Carraro, Andy Casey, Elena Franciosini, Anna Hourihane, Paula Jofré, Carmela Lardo, James Lewis, Laura Magrini, Lorenzo Morbidelli, and G. G. Sacco

Subjects

STELLAR spectra, STARS, WAVELENGTHS, HIGH resolution spectroscopy, ASTRONOMICAL spectroscopy

Abstract

We present a high-resolution synthetic spectral library, INTRIGOSS, designed for studying FGK stars. The library is based on atmosphere models computed with specified individual element abundances via ATLAS12 code. Normalized SPectra (NSPs) and surface Flux SPectra (FSP) in the wavelength range 4830–5400 Å were computed with the SPECTRUM code. INTRIGOSS uses the solar composition of Grevesse et al. and four [α/Fe] abundance ratios, and consists of 15,232 spectra. The synthetic spectra are computed with astrophysical gf-values derived by comparing synthetic predictions with a solar spectrum of very high signal-to-noise ratio and the UVES-U580 spectra of five cool giants. The validity of the NSPs is assessed by using the UVES-U580 spectra of 2212 stars observed in the framework of the Gaia–ESO (European Southern Observatory) survey and characterized by homogeneous and accurate atmospheric parameter values and by detailed chemical compositions. The greater accuracy of NSPs with respect to spectra from the synthetic spectral libraries AMBRE, GES_Grid, PHOENIX, C14, and B17 is demonstrated by evaluating the consistency of the predictions of the different libraries for stars in the UVES-U580 sample. The validity of the FSPs is checked by comparing their prediction with both the observed spectral energy distribution (SED) and spectral indices. The comparison of FSPs with SEDs derived from the libraries ELODIE, INDO–U.S., and MILES indicates that the former reproduce the observed flux distributions within a few per cent and without any systematic trend. The good agreement between observational and synthetic Lick/SDSS (Sloan Digital Sky Survey) indices shows that the predicted blanketing of FSPs well reproduces the observed one, thus confirming the reliability of INTRIGOSS FSPs. [ABSTRACT FROM AUTHOR]

Published

2018

4. KINEMATICS AND CHEMISTRY OF RECENTLY DISCOVERED RETICULUM 2 AND HOROLOGIUM 1 DWARF GALAXIES.

Author

Sergey E. Koposov, Andrew R. Casey, Vasily Belokurov, James R. Lewis, Gerard Gilmore, Clare Worley, Anna Hourihane, S. Randich, T. Bensby, A. Bragaglia, M. Bergemann, G. Carraro, M. T. Costado, E. Flaccomio, P. Francois, U. Heiter, V. Hill, P. Jofre, C. Lando, and A. C. Lanzafame

Subjects

KINEMATICS, DWARF galaxies, MAGELLANIC clouds, GALAXIES, STARS

Abstract

We report on VLT/GIRAFFE spectra of stars in two recently discovered ultra-faint satellites, Reticulum 2 and Horologium 1, obtained as part of the Gaia-ESO Survey. We identify 18 members in Reticulum 2 and five in Horologium 1. We find Reticulum 2 to have a velocity dispersion of , implying a mass-to-light ratio (M/L) of ∼500. The mean metallicity of Reticulum 2 is , with an intrinsic dispersion of ∼0.3 dex and α-enhancement of ∼0.4 dex. We conclude that Reticulum 2 is a dwarf galaxy. We also report on the serendipitous discovery of four stars in a previously unknown stellar substructure near Reticulum 2 with and , far from the systemic velocity of Reticulum 2. For Horologium 1 we infer a velocity dispersion of and a M/L ratio of ∼600, leading us to conclude that Horologium 1 is also a dwarf galaxy. Horologium 1 is slightly more metal-poor than Reticulum 2 () and is similarly α-enhanced: with a significant spread of metallicities of 0.17 dex. The line-of-sight velocity of Reticulum 2 is offset by 100 km s−1 from the prediction of the orbital velocity of the Large Magellanic Cloud (LMC), thus making its association with the Cloud uncertain. However, at the location of Horologium 1, both the backward-integrated orbit of the LMC and its halo are predicted to have radial velocities similar to that of the dwarf. Therefore, it is possible that Horologium 1 is or once was a member of the Magellanic family. [ABSTRACT FROM AUTHOR]

Published

2015