The Chemical Homogeneity of Sun-like Stars in the Solar Neighborhood

Bedell, Megan; Bean, Jacob L.; Meléndez, Jorge; Spina, L.; Ramírez, Iván; Asplund, Martin; Alves-Brito, Alan; Santos, Leonardo A. dos; Dreizler, S.; Yong, David; Monroe, TalaWanda R.; Casagrande, Luca

doi:10.3847/1538-4357/aad908

Cited by 169 publications

(351 citation statements)

References 77 publications

(121 reference statements)

Supporting

Mentioning

306

Contrasting

Order By: Relevance

“…Moreover, local substructure of the plot for the elements Ca-Zn and neutron-addition elements is similar to that which can be found for solar twins. Our PDA versus Z plot structural shows similarity to plots that can be made from the extensive work of Bedell et al (2018). That PDA structure and substructure is clearly a function of age.…”

supporting

confidence: 63%

“…A primary advantage of the historical work, near independence from gf ‐values, is retained. The stars are chosen to have identical or nearly identical spectral types, and presumably closely comparable structures and abundances–to be “twins.” The precision of the method has revealed significant differences which may arise as a result of star formation and Galactic chemical evolution (GCE) (Bedell et al , henceforth BD18).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Differential abundance analysis of Procyon and θ Sculptoris: Comparison with abundance patterns of solar‐like pairs

2020

View full text Add to dashboard Cite

The precision differential abundance (PDA) technique is applied to the mid‐F stars Procyon and θ Scl using spectra from the ESO UVESPOP library. We relate PDA patterns to endogenous processes related to condensation or to exogenous processes connected to Galactic chemical evolution. We employ one‐dimensional LTE models, but emphasize the use of weaker lines (≤20 mÅ) that are typically used in such studies. We compare our results with PDAs of solar‐type stars. Abundances and PDAs are determined for 28 elements: C, N, O, Na, Mg, Al, Si, S, Ca, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Zr, Ba, La, Ce, Nd, Sm, Eu, and Gd. A plot of PDAs (θ Scl minus Procyon) versus Z shows a highly significant correlation. Moreover, local substructure of the plot for the elements Ca‐Zn and neutron‐addition elements is similar to that which can be found for solar twins. Our PDA versus Z plot structural shows similarity to plots that can be made from the extensive work of Bedell et al. (2018). That PDA structure and substructure is clearly a function of age.

show abstract

supporting

confidence: 63%

Section: Introductionmentioning

confidence: 99%

Differential abundance analysis of Procyon and θ Sculptoris: Comparison with abundance patterns of solar‐like pairs

2020

View full text Add to dashboard Cite

show abstract

“…They found that 100 % of their sample of stars with detected planets has C/O< 0.8. Meanwhile, in a spectroscopic study of Sun-like stars, Bedell et al (2018) found that the ratios of C/O in solar metallicity stars are homogeneous to within 10 % throughout the solar neighborhood, implying that exoplanets may exhibit much less diversity in their composition than previously thought. The recent work by Pavlenko et al (2019) determined carbon and oxygen abundances in atmospheres of the supersolar metallicity stars with and without detected planets and confirmed that metal-rich dwarf stars with planets are more carbon-rich in comparison with nonplanet host stars, with a statistical significance of 96 %.…”

Section: Introductionmentioning

confidence: 94%

“…The past decade induced the theoretical and observational studies of carbon and oxygen abundances in stars in the context of determining a composition of extrasolar terrestrial planets, assuming that the composition of the host star and its protoplanetary disk is interrelated (see, e.g., Bond et al 2010;Petigura & Marcy 2011;Nissen et al 2014;Delgado Mena et al 2015;Madhusudhan et al 2016;Bedell et al 2018, and references therein). C and O and their elemental number rations C/O 1 could also be used to derive information related to the starplanet connection as in the case of lithium depletion.…”

Section: Introductionmentioning

confidence: 99%

High-resolution Spectroscopic Study of Dwarf Stars in the Northern Sky: Lithium, Carbon, and Oxygen Abundances

Stonkutė

Chorniy

Tautvaišienė

et al. 2020

View full text Add to dashboard Cite

Abundances of lithium, carbon, and oxygen have been derived using spectral synthesis for a sample of 249 bright F, G, and K Northern Hemisphere dwarf stars from the high-resolution spectra acquired with the VUES spectrograph at the Molėtai Astronomical Observatory of Vilnius University. The sample stars have metallicities, effective temperatures, and ages between (-0.7 ÷ 0.4) dex, (5000 ÷ 6900) K, (1 ÷ 12) Gyr, accordingly. We confirm a so far unexplained lithium abundance decrease at supersolar metallicities -A(Li) in our sample stars, which drop by 0.7 dex in the [Fe/H] range from +0.10 to +0.55 dex. Furthermore, we identified stars with similar ages, atmospheric parameters, and rotational velocities, but with significantly different lithium abundances, which suggests that additional specific evolutionary factors should be taken into account while interpreting the stellar lithium content. Nine stars with predominantly supersolar metallicities, i.e. about 12 % among 78 stars with C and O abundances determined, have the C/O number ratios larger than 0.65, thus may form carbon-rich rocky planets. Ten planet-hosting stars, available in our sample, do not show a discernible difference from the stars with no planets detected regarding their lithium content.

show abstract

“…Twin stars are objects with atmospheric parameters very similar to each other (e.g., ∆T eff 300 K and ∆log g 0.2 dex). It has been shown that a strictly differential line-by-line analysis of twin stars permits us to obtain differential abundances at the highest precision possible (e.g., Meléndez et al 2009;Bedell et al 2014Bedell et al , 2018Liu et al 2014;Spina et al 2018). In fact, when studying samples of twin stars, most of the systematic uncertainties that plague chemical abundance analyses are so similar among stars in the same binary pair that a strict differential line-by-line analysis cancels them out.…”

Section: Observations and Analysismentioning

confidence: 99%

The Chemical Signatures of Planetary Engulfment Events in Binary Systems

Nagar

Spina

Karakas

2019

ApJL

Self Cite

View full text Add to dashboard Cite

Planetary engulfment events involve the chemical assimilation of a planet into a star's external layer. This can cause a change in the chemical pattern of the stellar atmosphere in a way that mirrors the composition of the rocky object engulfed, with the refractory elements being more abundant than the volatiles. Due to these stellar chemical changes, planetary engulfment events can render the process of chemical tagging potentially inaccurate. A line-by-line differential analysis of twin stars in wide binary systems allows us to test the chemical homogeneity of these associations with typical individual stellar Fe I uncertainties of 0.01 dex and eventually unveil chemical anomalies that could be attributed to planetary engulfment events. Out of the 14 systems analysed here, we report the discovery of the most chemically inhomogeneous system to date (HIP34407/HIP34426). The median difference in abundances of refractory elements within the pair is 0.19 dex and the trend between the differential abundances and condensation temperature suggests that the anomaly is likely due to a planetary engulfment event. Within our sample, five other chemically anomalous systems are found.

show abstract

The Chemical Homogeneity of Sun-like Stars in the Solar Neighborhood

Cited by 169 publications

References 77 publications

Differential abundance analysis of Procyon and θ Sculptoris: Comparison with abundance patterns of solar‐like pairs

Differential abundance analysis of Procyon and θ Sculptoris: Comparison with abundance patterns of solar‐like pairs

High-resolution Spectroscopic Study of Dwarf Stars in the Northern Sky: Lithium, Carbon, and Oxygen Abundances

The Chemical Signatures of Planetary Engulfment Events in Binary Systems

Contact Info

Product

Resources

About