The Hamburg/ESO<i>R</i>-process enhanced star survey (HERES)

Mashonkina, L.; Christlieb, N.; Barklem, P. S.; Hill, V.; Beers, Timothy C.; Velichko, A.

doi:10.1051/0004-6361/200913825

Cited by 79 publications

(94 citation statements)

References 127 publications

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“…There are larger scatters among the results of Th correlated with Ba and Sr, and usually the scatter comes from the unclear type stars, which indicates the existence of multiple nucleosynthesis prcesses. Scatter of [Ba/Fe] and [Sr/Fe] were also reported by other studies (McWilliam 1998;Norris et al 2001). All these elements follow similar abundance pattern as thorium as expected, and stars of the same enhancement type have quite consistent distribution, supporting that they might form from the materials experienced similar chemical enrichments.…”

Section: Correlation With Other Neutron Capture Elementssupporting

confidence: 84%

“…It appears that among the r-process enhanced stars with measured Th or other actinide elements (e.g., U), except for an actinide normal group, which means no obvious enhancement of actinide element abundances with respect to the scaled solar r-process pattern, an actinide boost group (e.g., CS31082-001, HE1219-0312, CS30306-132) also came to be known, although the former group seems to be more common among r-process enhanced metal-poor stars (e.g., CS22892-052, CS29497-004). This imples that for elements in the range of Z ≥ 90, significantly different chemical yields might be produced due to the various conditions of the star formation regions (Hill et al 2002;Roederer et al 2009;Mashonkina et al 2010).…”

Section: Introductionmentioning

confidence: 93%

“…The HERES survey offers a good opportunity to perform such a study. More than 22 elemental abundances (not including Th) for the sample stars have been reported in previously published papers in this series (e.g., Barklem et al 2005;Zhang et al 2011), and thorium abundances have been studied furtherly with better quality spectra in a few stars (Hayek et al 2009;Mashonkina et al 2010). …”

Section: Introductionmentioning

confidence: 99%

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The Hamburg/ESO R-process Enhanced Star survey (HERES)

Ren

Christlieb

Zhao

2012

A&A

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We report thorium abundances for 77 metal-poor stars in the metallicity range of −3.5 < [Fe/H] < −1.0, based on "snapshot" spectra obtained with VLT-UT2/UVES during the HERES Survey. We were able to determine the thorium abundances with better than 1σ confidence for 17 stars, while for 60 stars we derived upper limits. For five stars common with previous studies, our results were in good agreement with the literature results. The thorium abundances span a wide range of about 4.0 dex, and scatter exists in the distribution of log (Th/Eu) ratios for lower metallicity stars, supporting previous studies suggesting the r-process is not universal. We derived ages from the log (Th/Eu) ratios for 12 stars, resulting in large scattered ages, and two stars with significant enhancement of Th relative to Eu are found, indicating the "actinide boost" does not seem to be a rare phenomenon and thus highlighting the risk in using log (Th/Eu) to derive stellar ages.

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Section: Correlation With Other Neutron Capture Elementssupporting

confidence: 84%

Section: Introductionmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

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The Hamburg/ESO R-process Enhanced Star survey (HERES)

Ren

Christlieb

Zhao

2012

A&A

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“…With this correction, we derived the relative abundance [N/Fe] = −0.32. It is worth noting that several papers applied "solar oscillator strengths" of the NH molecular lines, where Kurucz (1993) log g f -values were reduced by a factor of 0.807 dex (Hill et al 2002), 0.4 dex (Aoki et al 2006;Hayek et al 2009;Mashonkina et al 2010), and 0.3 dex (Shavrina et al 1996;Johnson et al 2007). Cayrel et al (2004) and this paper.…”

Section: Lithium To Zincmentioning

confidence: 82%

“…Observations of MP halo stars appear to infer a distinct production mechanism for Sr-Zr and heavy elements beyond Ba in the early Galaxy (Aoki et al 2005;François et al 2007;Mashonkina et al 2007b). Mashonkina et al (2010) found a clear distinction in Sr/Eu abundance ratios between the r-II and r-I stars, namely, the r-II stars contain a low Sr/Eu abundance ratio at [Sr/Eu] = −0.92 ± 0.13, while the r-I stars have 0.36 dex higher Sr/Eu values.…”

Section: Introductionmentioning

confidence: 91%

The Hamburg/ESO R-process Enhanced Star survey (HERES)

Mashonkina

Christlieb

Eriksson

2014

A&A

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Context. Studies of the r-process enhanced stars are important for understanding the nature and origin of the r-process better.Aims. We present a detailed abundance analysis of a very metal-poor giant star discovered in the HERES project, HE 2252-4225, which exhibits overabundances of the r-process elements with [r/Fe] = +0.80. Methods. We determined the stellar atmosphere parameters, T eff = 4710 K, log g = 1.65, and [Fe/H] = −2.63, and chemical abundances by analysing the high-quality VLT/UVES spectra. The surface gravity was calculated from the non-local thermodynamic equilibrium (NLTE) ionisation balance between Fe i and Fe ii.Results. Accurate abundances for a total of 38 elements, including 22 neutron-capture elements beyond Sr and up to Th, were determined in HE 2252−4225. For every chemical species, the dispersion in the single line measurements around the mean does not exceed 0.12 dex. This object is deficient in carbon, as expected for a giant star with T eff < 4800 K. The stellar Na-Zn abundances are well fitted by the yields of a single supernova of 14.4 M . For the neutron-capture elements in the Sr-Ru, Ba-Yb, and Os-Ir regions, the abundance pattern of HE 2252−4225 is in excellent agreement with the average abundance pattern of the strongly r-process enhanced stars CS 22892-052, CS 31082-001, HE 1219-0312, and HE 1523-091. This suggests a common origin of the first, second, and third r-process peak elements in HE 2252−4225 in the classical r-process. We tested the solar r-process pattern based on the most recent s-process calculations of Bisterzo, Travaglio, Gallino, Wiescher, and Käppeler and found that elements in the range from Ba to Ir match it very well. No firm conclusion can be drawn about the relationship between the first neutron-capture peak elements, Sr to Ru, in HE 2252−4225 and the solar r-process, owing to the uncertainty in the solar r-process. The investigated star has an anomalously high Th/Eu abundance ratio, so that radioactive dating results in a stellar age of τ = 1.5 ± 1.5 Gyr that is not expected for a very metal-poor halo star.

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High resolution study of the abundance pattern of the heavy elements in very metal‐poor field stars

Spite

2014

Astron Nachr

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The abundances of heavy elements in EMP stars are not well explained by the simple view of an initial basic “rapid” process. In a careful and homogeneous analysis of the “First Stars” sample (eighty per cent of the stars have a metallicity [Fe/H] ≃ –3.1 ± 0.4), it has been shown that at this metallicity [Eu/Ba] is constant, and therefore the europium‐rich stars (generally called “r‐rich”) are also Ba‐rich. The very large variation of [Ba/Fe] (existence of “r‐poor” and “r‐rich” stars) induces that the early matter was not perfectly mixed. On the other hand, the distribution of the values of [Sr/Ba] vs. [Ba/Fe] appears with well defined upper and lower envelopes. No star was found with [Sr/Ba] < –0.5 and the scatter of [Sr/Ba] increases regularly when [Ba/Fe] decreases. To explain this behavior, we suggest that an early “additional” process forming mainly first peak elements would affect the initial composition of the matter. For a same quantity of accreted matter, this additional Sr production would barely affect the r‐rich matter (which already contains an important quantity of Sr) but would change significantly the composition of the r‐poor matter. The abundances found in the CEMP‐r+s stars reflect the transfer of heavy elements from a defunct AGB companion. But the abundances of the heavy elements in CEMP‐no stars present the same characteristics as the the abundances in the EMP stars. Direct stellar ages may be found from radioactive elements, the precision is limited by the precision in the measurements of abundances from faint lines in faint stars, and the uncertainty in the initial abundances of the radioactive elements. (© 2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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The Hamburg/ESOR-process enhanced star survey (HERES)

Cited by 79 publications

References 127 publications

The Hamburg/ESO R-process Enhanced Star survey (HERES)

The Hamburg/ESO R-process Enhanced Star survey (HERES)

The Hamburg/ESO R-process Enhanced Star survey (HERES)

High resolution study of the abundance pattern of the heavy elements in very metal‐poor field stars

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