HE 1327-2326 , the SIMBAD biblio

HE 1327-2326 , the SIMBAD biblio (209 results) C.D.S. - SIMBAD4 rel 1.7 - 2019.11.12CET08:21:09

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Title First 3 Authors
2019A&A...621A.108A viz 439       D     X C       9 59 ~ Binarity among CEMP-no stars: an indication of multiple formation pathways? ARENTSEN A., STARKENBURG E., SHETRONE M.D., et al.
2019A&A...624A..44S viz 47           X         1 7 ~ Be and O in the ultra metal-poor dwarf 2MASS J18082002-5104378: the Be-O correlation. SPITE M., BONIFACIO P., SPITE F., et al.
2019ApJ...871..146F 886     A D     X C F     18 33 ~ Chemical abundance signature of J0023+0307 a second-generation main-sequence star with [Fe/H] < -6. FREBEL A., JI A.P., EZZEDDINE R., et al.
2019ApJ...876...97E 2454 T K A S   X C       50 2 ~ Evidence for an aspherical population III supernova explosion inferred from the hyper-metal-poor star
HE 1327-2326.
2019ApJ...879...37N 19       D               3 74 ~ The most metal-poor stars. V. The CEMP-no stars in 3D and non-LTE. NORRIS J.E. and YONG D.
2019MNRAS.484.2166S 112       D         F     5 45 ~ Tracing the formation of the Milky Way through ultra metal-poor stars. SESTITO F., LONGEARD N., MARTIN N.F., et al.
2019MNRAS.485.3527S 439       D     X         10 19 ~ Ultra metal-poor stars: improved atmospheric parameters and NLTE abundances of magnesium and calcium. SITNOVA T.M., MASHONKINA L.I., EZZEDDINE R., et al.
2019MNRAS.486.5917K 47           X         1 12 ~ Effect of interstellar objects on metallicity of low-mass first stars formed in a cosmological model. KIRIHARA T., TANIKAWA A. and ISHIYAMA T.
2019MNRAS.488L.109N 47           X         1 6 ~ The lowest detected stellar Fe abundance: the halo star SMSS J160540.18-144323.1. NORDLANDER T., BESSELL M.S., DA COSTA G.S., et al.
2018A&A...612A..65B 18 13 TOPoS. IV. Chemical abundances from high-resolution observations of seven extremely metal-poor stars. BONIFACIO P., CAFFAU E., SPITE M., et al.
2018A&A...617A..56S 179           X C       3 15 1 A CEMP-no star in the ultra-faint dwarf galaxy Pisces II. SPITE M., SPITE F., FRANCOIS P., et al.
2018A&A...618A.133C viz 45           X         1 7 2 Non-standard s-process in massive rotating stars. Yields of 10-150 M models at Z = 10–3. CHOPLIN A., HIRSCHI R., MEYNET G., et al.
2018A&A...619A..10F 134           X C       2 11 ~ Chemical analysis of very metal-poor turn-off stars from SDSS-DR12. FRANCOIS P., CAFFAU E., WANAJO S., et al.
2018AJ....155..256P viz 45           X         1 7 3 Spectroscopic validation of low-metallicity stars from RAVE. PLACCO V.M., BEERS T.C., SANTUCCI R.M., et al.
2018ApJ...852L..20A 224           X         5 10 5 J0815+4729 a chemically primitive dwarf star in the galactic halo observed with Gran Telescopio Canarias. AGUADO D.S., HERNANDEZ J.I.G., PRIETO C.A., et al.
2018ApJ...857...46I viz 224           X C       4 206 9 The initial mass function of the first stars inferred from extremely metal-poor stars. ISHIGAKI M.N., TOMINAGA N., KOBAYASHI C., et al.
2018ApJ...863..168E 1926 T K A D S   X C       41 5 1 Revisiting the iron abundance in the hyper iron-poor star
HE 1327-2326 with UV COS/HST data.
2018MNRAS.474L..37C 386     A     X C       8 6 7 Pop III i-process nucleosynthesis and the elemental abundances of SMSS J0313-6708 and the most iron-poor stars. CLARKSON O., HERWIG F. and PIGNATARI M.
2018MNRAS.475.4378C 197       D     X         5 4 3 Metal-poor star formation triggered by the feedback effects from Pop III stars. CHIAKI G., SUSA H. and HIRANO S.
2018MNRAS.478.1795H 46           X         1 4 5 Descendants of the first stars: the distinct chemical signature of second-generation stars. HARTWIG T., YOSHIDA N., MAGG M., et al.
2018MNRAS.481.3838S 90               F     1 9 ~ The Pristine survey IV: approaching the Galactic metallicity floor with the discovery of an ultra-metal-poor star. STARKENBURG E., AGUADO D.S., BONIFACIO P., et al.
2018PASJ...70...94A 197       D     X C       4 7 ~ LAMOST J221750.59+210437.2: A new member of carbon-enhanced extremely metal-poor stars with excesses of Mg and Si. AOKI W., MATSUNO T., HONDA S., et al.
2017A&A...604A.128D viz 44           X         1 36 10 The Gaia-ESO Survey: Galactic evolution of sulphur and zinc. DUFFAU S., CAFFAU E., SBORDONE L., et al.
2017A&A...605A..40A viz 87           X         2 19 6 WHT follow-up observations of extremely metal-poor stars identified from SDSS and LAMOST. AGUADO D.S., GONZALEZ HERNANDEZ J.I., ALLENDE PRIETO C., et al.
2017A&A...605A..53M 375     A     X         9 11 12 Influence of inelastic collisions with hydrogen atoms on the non-LTE modelling of Ca I and Ca II lines in late-type stars. MASHONKINA L., SITNOVA T. and BELYAEV A.K.
2017A&A...605A..63C 87             C       1 24 5 Pre-supernova mixing in CEMP-no source stars. CHOPLIN A., EKSTROM S., MEYNET G., et al.
2017AJ....154...52M viz 17       D               1 68 7 High-resolution spectroscopy of extremely metal-poor stars from SDSS/SEGUE. III. Unevolved stars with [Fe/H] <= -3.5. MATSUNO T., AOKI W., BEERS T.C., et al.
2017ApJ...835...81B viz 104       D     X         3 1800 12 Bright metal-poor stars from the Hamburg/ESO Survey. II. A chemodynamical analysis. BEERS T.C., PLACCO V.M., CAROLLO D., et al.
2017ApJ...847..142E viz 322       D     X         8 25 12 Ultra-metal-poor stars: spectroscopic determination of stellar atmospheric parameters using iron Non-LTE line abundances. EZZEDDINE R., FREBEL A. and PLEZ B.
2017MNRAS.468..418F 104       D         F     2 51 8 The mass distribution of Population III stars. FRASER M., CASEY A.R., GILMORE G., et al.
2017PASJ...69...24M 104       D     X         3 37 6 Lithium in CEMP-no stars: A new constraint on the lithium depletion mechanism in the early universe. MATSUNO T., AOKI W., SUDA T., et al.
2017PASP..129g6001S 87             C       1 21 5 Finding the UV-Visible Path Forward: proceedings of the community workshop to plan the future of UV/Visible space astrophysics. SCOWEN P.A., TRIPP T., BEASLEY M., et al.
2016A&A...586A.160H 400       D   O X C       9 36 27 The role of binaries in the enrichment of the early Galactic halo. II. Carbon-enhanced metal-poor stars: CEMP-no stars. HANSEN T.T., ANDERSEN J., NORDSTROEM B., et al.
2016A&A...591A.118S viz 17       D               1 31386 40 The PASTEL catalogue: 2016 version. SOUBIRAN C., LE CAMPION J.-F., BROUILLET N., et al.
2016A&A...593A..10A 43           X         1 22 10 Follow-up observations of extremely metal-poor stars identified from SDSS. AGUADO D.S., ALLENDE PRIETO C., GONZALEZ HERNANDEZ J.I., et al.
2016A&A...593A..36C 187       D     X         5 14 5 Constraints on CEMP-no progenitors from nuclear astrophysics. CHOPLIN A., MAEDER A., MEYNET G., et al.
2016ApJ...833...20Y viz 272       D     X C       6 304 44 Observational constraints on first-star nucleosynthesis. I. Evidence for multiple progenitors of CEMP-no stars. YOON J., BEERS T.C., PLACCO V.M., et al.
2016ApJ...833...21P 231       D     X         6 13 17 Observational constraints on first-star nucleosynthesis. II. Spectroscopy of an ultra metal-poor CEMP-no star. PLACCO V.M., FREBEL A., BEERS T.C., et al.
2016MNRAS.456.1803F 64       D     X         2 11 54 s-process production in rotating massive stars at solar and low metallicities. FRISCHKNECHT U., HIRSCHI R., PIGNATARI M., et al.
2015A&A...576A..56M 309       D     X         8 44 35 The first stars: CEMP-no stars and signatures of spinstars. MAEDER A., MEYNET G. and CHIAPPINI C.
2015A&A...579A..28B viz 477       D     X C       11 46 68 TOPoS. II. On the bimodality of carbon abundance in CEMP stars. Implications on the early chemical evolution of galaxies. BONIFACIO P., CAFFAU E., SPITE M., et al.
2015A&A...580A..32M 184       D     X         5 48 13 The first stars: a classification of CEMP-no stars. MAEDER A. and MEYNET G.
2015ARA&A..53..631F 396       D     X C       9 38 136 Near-field cosmology with extremely metal-poor stars. FREBEL A. and NORRIS J.E.
2015ApJ...798..110L viz 43           X         1 16 29 Spectroscopic analysis of metal-poor stars from LAMOST: early results. LI H.-N., ZHAO G., CHRISTLIEB N., et al.
2015ApJ...806L..16B 95           X         2 3 34 Nucleosynthesis in a primordial supernova: carbon and oxygen abundances in SMSS J031300.36-670839.3. BESSELL M.S., COLLET R., KELLER S.C., et al.
2015ApJ...807..173H 142       D     X         4 53 46 An elemental assay of very, extremely, and ultra-metal-poor stars. HANSEN T., HANSEN C.J., CHRISTLIEB N., et al.
2015ApJ...808L..47K 47           X         1 3 17 The most iron-deficient stars as the polluted population III stars. KOMIYA Y., SUDA T. and FUJIMOTO M.Y.
2015ApJ...809..136P 310       D     X         8 24 30 Metal-poor stars observed with the Magellan telescope. III. New extremely and ultra metal-poor stars from SDSS/SEGUE and insights on the formation of ultra metal-poor stars. PLACCO V.M., FREBEL A., LEE Y.S., et al.
2015ApJ...810L..27F 46           X         1 9 40 SD 1313-0019: another second-generation star with [Fe/H] = -5.0, observed with the Magellan telescope. FREBEL A., CHITI A., JI A.P., et al.
2015ApJ...811...64A 43           X         1 3 5 Molecular line formation in the extremely metal-poor star BD+44 493. AOKI W.
2015MNRAS.446.2659C 87             C       1 5 17 Supernova dust formation and the grain growth in the early universe: the critical metallicity for low-mass star formation. CHIAKI G., MARASSI S., NOZAWA T., et al.
2015MNRAS.454..659J 64           X         1 1 22 Preserving chemical signatures of primordial star formation in the first low-mass stars. JI A.P., FREBEL A. and BROMM V.
2015MNRAS.454.4250M 439       D     X         11 6 28 The metal and dust yields of the first massive stars. MARASSI S., SCHNEIDER R., LIMONGI M., et al.
2015PASJ...67...84L 379           X C       8 7 24 High-resolution spectroscopic studies of ultra metal-poor stars found in the LAMOST survey. LI H., AOKI W., ZHAO G., et al.
2015RAA....15.1945S 125           X         3 108 31 Thirty Meter Telescope Detailed Science Case: 2015. SKIDMORE W.
2014ApJ...781...40P viz 43           X         1 13 28 Metal-poor stars observed with the Magellan telescope. II. Discovery of four stars with [Fe/H] ≤ -3.5. PLACCO V.M., FREBEL A., BEERS T.C., et al.
2014ApJ...782...95J 418           X C       9 5 32 The chemical imprint of silicate dust on the most metal-poor stars. JI A.P., FREBEL A. and BROMM V.
2014ApJ...783..132K 57           X         1 2 33 The new model of chemical evolution of r-process elements based on the hierarchical galaxy formation. I. Ba and eu. KOMIYA Y., YAMADA S., SUDA T., et al.
2014ApJ...784..153H 42           X         1 6 9 Possible evidence for metal accretion onto the surfaces of metal-poor main-sequence stars. HATTORI K., YOSHII Y., BEERS T.C., et al.
2014ApJ...784..158R 166           X C       3 26 37 Neutron-capture nucleosynthesis in the first stars. ROEDERER I.U., PRESTON G.W., THOMPSON I.B., et al.
2014ApJ...785...98T 470       D     X         12 55 66 Abundance profiling of extremely metal-poor stars and supernova properties in the early universe. TOMINAGA N., IWAMOTO N. and NOMOTO K.
2014ApJ...787..162H 85           X         2 14 47 Exploring the origin of lithium, carbon, strontium, and barium with four new ultra metal-poor stars. HANSEN T., HANSEN C.J., CHRISTLIEB N., et al.
2014ApJ...788..180C viz 99       D     X         3 329 37 Carbon-enhanced metal-poor stars: CEMP-s and CEMP-no subclasses in the halo system of the Milky Way. CAROLLO D., FREEMAN K., BEERS T.C., et al.
2014ApJ...791...98V 428       D     X C       10 16 12 Searching for dust around hyper metal poor stars. VENN K.A., PUZIA T.H., DIVELL M., et al.
2014ApJ...792L..32I 312       D     X C       7 5 36 Faint population III supernovae as the origin of the most iron-poor stars. ISHIGAKI M.N., TOMINAGA N., KOBAYASHI C., et al.
2014ApJ...794...40T 670     A D S   X C       15 3 33 Stellar yields of rotating first stars. I. Yields of weak supernovae and abundances of carbon-enhanced hyper-metal-poor stars. TAKAHASHI K., UMEDA H. and YOSHIDA T.
2014ApJ...797...13S viz 41           X         1 518 39 The best and brightest metal-poor stars. SCHLAUFMAN K.C. and CASEY A.R.
2014ApJ...797...21P viz 99       D       C       3 606 97 Carbon-enhanced metal-poor star frequencies in the galaxy: corrections for the effect of evolutionary status on carbon abundances. PLACCO V.M., FREBEL A., BEERS T.C., et al.
2014MNRAS.445.3039D 45           X         1 12 49 Decoding the stellar fossils of the dusty Milky Way progenitors. DE BENNASSUTI M., SCHNEIDER R., VALIANTE R., et al.
2014Natur.506..463K 85 2 170 A single low-energy, iron-poor supernova as the source of metals in the star SMSS J031300.36-670839.3. KELLER S.C., BESSELL M.S., FREBEL A., et al.
2013A&A...552A.107S 49           X         1 9 76 Carbon-enhanced metal-poor stars: the most pristine objects? SPITE M., CAFFAU E., BONIFACIO P., et al.
2013A&A...557A..26M viz 64           X         1 5 116 The STAGGER-grid: a grid of 3D stellar atmosphere models. I. Methods and general properties. MAGIC Z., COLLET R., ASPLUND M., et al.
2013A&A...559A...4C 352   K A     X C       8 2 6 S-process in extremely metal-poor, low-mass stars. CRUZ M.A., SERENELLI A. and WEISS A.
2013A&A...560A..15C 43           X         1 11 23 X-shooter GTO: evidence for a population of extremely metal-poor, alpha-poor stars. CAFFAU E., BONIFACIO P., FRANCOIS P., et al.
2013AJ....145...13A viz 41           X         1 151 91 High-resolution spectroscopy of extremely metal-poor stars from SDSS/SEGUE. I. Atmospheric parameters and chemical compositions. AOKI W., BEERS T.C., LEE Y.S., et al.
2013AJ....145...26R 123           X         3 27 52 Are there any stars lacking neutron-capture elements? Evidence from strontium and barium. ROEDERER I.U.
2013ARA&A..51..457N 6 44 269 Nucleosynthesis in stars and the chemical enrichment of galaxies. NOMOTO K., KOBAYASHI C. and TOMINAGA N.
2013ApJ...762...25N viz 41           X         1 74 45 The most metal-poor stars. I. Discovery, data, and atmospheric parameters. NORRIS J.E., BESSELL M.S., YONG D., et al.
2013ApJ...762...26Y viz 179       D     X         5 198 138 The most metal-poor stars. II. Chemical abundances of 190 metal-poor stars including 10 new stars with [Fe/H] ≤ -3.5. YONG D., NORRIS J.E., BESSELL M.S., et al.
2013ApJ...762...27Y viz 16       D               1 88 74 The most metal-poor stars. III. The metallicity distribution function and carbon-enhanced metal-poor fraction. YONG D., NORRIS J.E., BESSELL M.S., et al.
2013ApJ...762...28N 505       D     X C       12 106 118 The most metal-poor stars. IV. The two populations with [Fe/H] ≲ -3.0. NORRIS J.E., YONG D., BESSELL M.S., et al.
2013ApJ...762...31P 107           X         2 2 53 The 12C + 12C reaction and the impact on nucleosynthesis in massive stars. PIGNATARI M., HIRSCHI R., WIESCHER M., et al.
2013ApJ...769...57F viz 44           X         1 17 53 Deriving stellar effective temperatures of metal-poor stars with the excitation potential method. FREBEL A., CASEY A.R., JACOBSON H.R., et al.
2013ApJ...770..104P 42           X         1 33 37 Metal-poor stars observed with the Magellan telescope. I. Constraints on progenitor mass and metallicity of AGB stars undergoing s-process nucleosynthesis. PLACCO V.M., FREBEL A., BEERS T.C., et al.
2013ApJ...773...33I viz 48           X         1 5 38 Chemical analysis of the ninth magnitude carbon-enhanced metal-poor star BD+44°493. ITO H., AOKI W., BEERS T.C., et al.
2013MNRAS.428..236O 163           X         4 6 11 A new model for the origin of very metal poor stars and their chemical composition. OUYED R.
2013MNRAS.431.1425M 42           X         1 5 7 The extremely low-metallicity star SDSS J102915+172927: a subgiant scenario. MacDONALD J., LAWLOR T.M., ANILMIS N., et al.
2013RAA....13..313X 41           X         1 22 2 Extremely metal-poor star candidates in the SDSS. XU S.-Y., ZHANG H.-W. and LIU X.-W.
2012A&A...542A..51C 211           X C       4 8 86 A primordial star in the heart of the Lion. CAFFAU E., BONIFACIO P., FRANCOIS P., et al.
2012A&A...542A..87B 242         O X C       5 24 44 Chemical abundances of distant extremely metal-poor unevolved stars. BONIFACIO P., SBORDONE L., CAFFAU E., et al.
2012A&A...544A.102B 1711 T K A     X C F     40 9 12 An upper limit on the sulphur abundance in
HE 1327-2326.
2012A&A...548A..34A viz 739       D     X         19 134 38 Elemental abundances and classification of carbon-enhanced metal-poor stars. ALLEN D.M., RYAN S.G., ROSSI S., et al.
2012ApJ...744..195C 42           X         1 35 94 Carbon-enhanced metal-poor stars in the inner and outer halo components of the Milky Way. CAROLLO D., BEERS T.C., BOVY J., et al.
2012ApJ...751...14M 56       D     X         2 50 38 Lithium abundances in carbon-enhanced metal-poor stars. MASSERON T., JOHNSON J.A., LUCATELLO S., et al.
2012ApJ...753..150N 202           X         5 6 11 The oxygen abundance of the ultra-metal-poor star He 0557-4840. NORRIS J.E., CHRISTLIEB N., BESSELL M.S., et al.
2012ApJS..199...38L viz 55           X         1 4 61 Presupernova evolution and explosive nucleosynthesis of zero metal massive stars. LIMONGI M. and CHIEFFI A.
2012MNRAS.423L..60S 59           X         1 3 58 The formation of the extremely primitive star SDSS J102915+172927 relies on dust. SCHNEIDER R., OMUKAI K., LIMONGI M., et al.
2011A&A...528A...9S 103     A     X         3 55 39 First stars. XIV. Sulfur abundances in extremely metal-poor stars. SPITE M., CAFFAU E., ANDRIEVSKY S.M., et al.
2011AJ....142..188P viz 41           X         1 11 27 Searches for metal-poor stars from the Hamburg/ESO survey using the CH G-band. PLACCO V.M., KENNEDY C.R., BEERS T.C., et al.
2011ApJ...736...73K 40           X         1 3 5 Extremely metal-poor stars and a hierarchical chemical evolution model. KOMIYA Y.
2011MNRAS.412..843S viz 294       D     X         8 148 79 The stellar abundances for galactic archaeology (SAGA) data base – II. Implications for mixing and nucleosynthesis in extremely metal-poor stars and chemical enrichment of the galaxy. SUDA T., YAMADA S., KATSUTA Y., et al.
2011MNRAS.412.1047C 47           X         1 5 70 A carbon-enhanced metal-poor damped Lyα system: probing gas from population III nucleosynthesis? COOKE R., PETTINI M., STEIDEL C.C., et al.
2011MNRAS.413.2987V 159             C F     5 8 14 Cosmic chemical evolution with an early population of intermediate-mass stars. VANGIONI E., SILK J., OLIVE K.A., et al.
2011MmSAI..82..897R 40           X         1 3 1 Cosmological cosmic ray production of LiBeB and PopIII stars. ROLLINDE E. and VANGIONI E.
2011Msngr.146...28C 2 3 X-shooter finds an extremely primitive star. CAFFAU E., BONIFACIO P., FRANCOIS P., et al.
2011Natur.477...37N 2 2 Astrophysics: A hint of normality at last? NORRIS J.E.
2011Natur.477...67C 18 6 221 An extremely primitive star in the Galactic halo. CAFFAU E., BONIFACIO P., FRANCOIS P., et al.
2011PABei..29..387Z 12 0 Progress of the study about R-process nucleosynthesis in metal-poor stars. ZHANG J., CUI W.-Y. and ZHANG B.
2010A&A...509A..93M viz 252       D     X         7 181 137 A holistic approach to carbon-enhanced metal-poor stars. MASSERON T., JOHNSON J.A., PLEZ B., et al.
2010A&A...512A..54C viz 330       D S   X C       7 465 447 An absolutely calibrated Teff scale from the infrared flux method. Dwarfs and subgiants. CASAGRANDE L., RAMIREZ I., MELENDEZ J., et al.
2010A&A...513A..72B 41           X         1 13 60 Three carbon-enhanced metal-poor dwarf stars from the SDSS. Chemical abundances from CO5BOLD 3D hydrodynamical model atmospheres. BEHARA N.T., BONIFACIO P., LUDWIG H.-G., et al.
2010A&A...515A.102C 382     A     X         10 3 24 The effects of stellar winds of fast-rotating massive stars in the earliest phases of the chemical enrichment of the Galaxy. CESCUTTI G. and CHIAPPINI C.
2010A&A...521A..10L 42           X         1 4 31 The stellar content of the Hamburg/ESO survey. VI. Metallicity distribution of main-sequence turnoff stars in the Galactic halo. LI H.N., CHRISTLIEB N., SCHOERCK T., et al.
2010A&A...521A..30M 831           X C       20 6 69 Are C-rich ultra iron-poor stars also He-rich? MEYNET G., HIRSCHI R., EKSTROEM S., et al.
2010A&A...522A..26S viz 82         O X         2 36 233 The metal-poor end of the Spite plateau. I. Stellar parameters, metallicities, and lithium abundances. SBORDONE L., BONIFACIO P., CAFFAU E., et al.
2010A&A...522L...6C 609   K A D     X         16 1 38 Evolution and nucleosynthesis of extremely metal-poor and metal-free low- and intermediate-mass stars. II. s-process nucleosynthesis during the core He flash. CAMPBELL S.W., LUGARO M. and KARAKAS A.I.
2010AJ....139.1051P viz 39           X         1 136 17 A search for unrecognized carbon-enhanced metal-poor stars in the Galaxy. PLACCO V.M., KENNEDY C.R., ROSSI S., et al.
2010AN....331..474F viz 3 14 97 Stellar archaeology: Exploring the Universe with metal-poor stars. FREBEL A.
2010ApJ...709...11J 719           X C F     16 4 91 The nucleosynthetic imprint of 15-40 m primordial supernovae on metal-poor stars. JOGGERST C.C., ALMGREN A., BELL J., et al.
2010ApJ...717..542K 160           X         4 4 25 Formation history of metal-poor halo stars with the hierarchical model and the effect of interstellar matter accretion on the most metal-poor stars. KOMIYA Y., HABE A., SUDA T., et al.
2010ApJ...722L.104N 41           X         1 13 56 An extremely carbon-rich, extremely metal-poor star in the Segue 1 system. NORRIS J.E., GILMORE G., WYSE R.F.G., et al.
2010ApJ...724..341H viz 290     A S   X C       5 5 300 Nucleosynthesis and evolution of massive metal-free stars. HEGER A. and WOOSLEY S.E.
2010MNRAS.405..177S 243           X C F     4 3 46 Evolution of low- and intermediate-mass stars with [Fe/H] ≤ - 2.5. SUDA T. and FUJIMOTO M.Y.
2010MmSAI..81..151M 15 1 Supernova nucleosynthesis and stellar population in the early Universe. MAEDA K., TOMINAGA N., UMEDA H., et al.
2010Natur.464...72F 5 11 116 Linking dwarf galaxies to halo building blocks with the most metal-poor star in Sculptor. FREBEL A., KIRBY E.N. and SIMON J.D.
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2009A&A...507..817S 119           X         3 15 82 The stellar content of the Hamburg/ESO survey. V. The metallicity distribution function of the Galactic halo. SCHOERCK T., CHRISTLIEB N., COHEN J.G., et al.
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