HE 1300+0157 , the SIMBAD biblio

HE 1300+0157 , the SIMBAD biblio (40 results) C.D.S. - SIMBAD4 rel 1.7 - 2020.08.04CEST02:10:55


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Title First 3 Authors
2019A&A...621A.108A viz 299       D     X         7 59 ~ Binarity among CEMP-no stars: an indication of multiple formation pathways? ARENTSEN A., STARKENBURG E., SHETRONE M.D., et al.
2019A&A...623A.128H viz 47           X         1 20 ~ Abundances and kinematics of carbon-enhanced metal-poor stars in the Galactic halo. A new classification scheme based on Sr and Ba. HANSEN C.J., HANSEN T.T., KOCH A., et al.
2019A&A...632A..62C 93             C       2 262 ~ Inferring the velocity of early massive stars from the abundances of extremely metal-poor stars. CHOPLIN A., TOMINAGA N. and ISHIGAKI M.N.
2018ApJ...857...46I viz 18       D               2 206 9 The initial mass function of the first stars inferred from extremely metal-poor stars. ISHIGAKI M.N., TOMINAGA N., KOBAYASHI C., et al.
2018MNRAS.479..495G 358       S   X C F     5 5 ~ Nucleosynthesis in primordial hypernovae. GRIMMETT J.J., HEGER A., KARAKAS A.I., et al.
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.
2016A&A...586A.160H 102       D   O   C       5 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...593A..36C 17       D               1 14 5 Constraints on CEMP-no progenitors from nuclear astrophysics. CHOPLIN A., MAEDER A., MEYNET G., et al.
2016ApJ...833...20Y viz 17       D               1 304 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.
2015A&A...576A..56M 59       D     X         2 44 35 The first stars: CEMP-no stars and signatures of spinstars. MAEDER A., MEYNET G. and CHIAPPINI C.
2015A&A...580A..32M 59       D     X         2 48 13 The first stars: a classification of CEMP-no stars. MAEDER A. and MEYNET G.
2015ApJ...807..173H 17       D               1 53 46 An elemental assay of very, extremely, and ultra-metal-poor stars. HANSEN T., HANSEN C.J., CHRISTLIEB N., et al.
2015ApJ...809..136P 126           X C       2 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.
2014ApJ...785...98T 264       D     X         7 55 66 Abundance profiling of extremely metal-poor stars and supernova properties in the early universe. TOMINAGA N., IWAMOTO N. and NOMOTO K.
2014ApJ...788..180C viz 16       D               1 329 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...797...21P viz 16       D               2 606 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.441.1217S 102       D         F     8 19 70 Binarity in carbon-enhanced metal-poor stars. STARKENBURG E., SHETRONE M.D., McCONNACHIE A.W., et al.
2013ApJ...762...26Y viz 16       D               1 198 138 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 17       D               3 106 118 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...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...773...33I viz 129           X C       2 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.
2013ApJ...778...56C viz 57       D     X         2 144 85 Normal and outlying populations of the Milky Way stellar halo at [Fe/H] ←2. COHEN J.G., CHRISTLIEB N., THOMPSON I., et al.
2012A&A...548A..34A viz 16       D               16 134 38 Elemental abundances and classification of carbon-enhanced metal-poor stars. ALLEN D.M., RYAN S.G., ROSSI S., et al.
2012ApJ...753..150N 41           X         1 6 11 The oxygen abundance of the ultra-metal-poor star He 0557-4840. NORRIS J.E., CHRISTLIEB N., BESSELL M.S., et al.
2011A&A...528A..92Z viz 16       D               1 254 10 The Hamburg/ESO R-process Enhanced Star survey (HERES). VI. The Galactic chemical evolution of silicon. ZHANG L., KARLSSON T., CHRISTLIEB N., et al.
2011MNRAS.412..843S viz 16       D               1 148 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.
2011MmSAI..82..897R 40           X         1 3 1 Cosmological cosmic ray production of LiBeB and PopIII stars. ROLLINDE E. and VANGIONI E.
2010A&A...509A..93M viz 16       D               2 181 137 A holistic approach to carbon-enhanced metal-poor stars. MASSERON T., JOHNSON J.A., PLEZ B., et al.
2009ApJ...690..526T 119           X   F     2 13 52 Aspherical properties of hydrodynamics and nucleosynthesis in jet-induced supernovae. TOMINAGA N.
2009ApJ...698L..37I 126           X         3 3 54 BD+44 493: a ninth magnitude messenger from the early universe: carbon enhanced and beryllium poor. ITO H., AOKI W., HONDA S., et al.
2009MNRAS.398.1782R 290       D     X   F     7 11 22 Influence of population III stars on cosmic chemical evolution. ROLLINDE E., VANGIONI E., MAURIN D., et al.
2009PASJ...61..909N 117           X C       2 13 13 Oxygen and light-element synthesis by neutron-capture reactions in metal-free and extremely metal-poor AGB stars. NISHIMURA T., AIKAWA M., SUDA T., et al.
2008ApJ...672..320C 635       D     X C       16 25 78 New extremely metal-poor stars in the Galactic halo. COHEN J.G., CHRISTLIEB N., McWILLIAM A., et al.
2008ApJ...677..572V 39           X         1 20 30 Could the ultra-metal-poor stars Be chemically peculiar and not related to the first stars? VENN K.A. and LAMBERT D.L.
2007ApJ...658..534F 40   K                 10 43 Chemical abundance analysis of the extremely metal-poor star HE 1300+0157. FREBEL A., NORRIS J.E., AOKI W., et al.
2007ApJ...670..774N 393           X C       9 7 133 HE 0557-4840: ultra-metal-poor and carbon-rich. NORRIS J.E., CHRISTLIEB N., KORN A.J., et al.
2007ApJS..168..128B viz 15       D               1851 38 Broadband UBVRCIC photometry of horizontal-branch and metal-poor candidates from the HK and Hamburg/ESO surveys. I. BEERS T.C., FLYNN C., ROSSI S., et al.
2005A&A...439..129B viz 15       D               1 252 236 The Hamburg/ESO R-process enhanced star survey (HERES). II. Spectroscopic analysis of the survey sample. BARKLEM P.S., CHRISTLIEB N., BEERS T.C., et al.

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2020.08.04-02:10:55

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