Publication data of Umeda, Hideyuki: Link to Inspire

Created with Highcharts 9.0.1CitationsCitationsw/o self-citaionself-citaion199520002005201020152020202502000400060008000
Created with Highcharts 9.0.1Publicationspublications per yearPublicationsPublications per yearCumulative publications19952000200520102015202020250408012016020003691215
Created with Highcharts 9.0.1h-indexh-indexh-indexh-index w/o self-citaion199520002005201020152020202501020304050
Created with Highcharts 9.0.1CitationsBreakdown of Most Cited PapersrestEvolution of 3-9 mo stars for z=0.001 - 0.03 and metallicity effects on type ia supernovaeEvolution of 3-9 mo stars for z=0.001 - 0.03 and metallicity effects on type i…How much Ni-56 can be produced in Core-Collapse Supernovae? Evolution and Explosions of 30-100 Msun StarsHow much Ni-56 can be produced in Core-Collapse Supernovae? Evolution a…On the minimum mass of neutron starsThe role of electron captures in chandrasekhar mass models for type ia supernovaeThe role of electron captures in chandrasekhar mass models for type ia super…Evolution of Dust in Primordial Supernova Remnants: Can Dust Grains Formed in the Ejecta Survive and be Injected into the Early Interstellar Medium?Evolution of Dust in Primordial Supernova Remnants: Can Dust Grains Forme…The First chemical enrichment in the Universe and the formation of hyper metal-poor starsThe First chemical enrichment in the Universe and the formation of hyper m…The Unique Type Ib Supernova 2005bf at Nebular Phases: A Possible Birth Event of A Strongly Magnetized Neutron StarThe Unique Type Ib Supernova 2005bf at Nebular Phases: A Possible Birth Ev…Supernova Nucleosynthesis in Population III 13-50 Solar Mass Stars and Abundance Patterns of Extremely Metal-Poor StarsSupernova Nucleosynthesis in Population III 13-50 Solar Mass Stars and Abu…Supernova Neutrino Light Curves and Spectra for Various Progenitor Stars: From Core Collapse to Proto-neutron Star CoolingSupernova Neutrino Light Curves and Spectra for Various Progenitor Stars: Fr…Variations in the abundance pattern of extremely metal-poor stars and nucleosynthesis in population III supernovaeVariations in the abundance pattern of extremely metal-poor stars and nucle…A new evolutionary path to type ia supernovae: helium-rich super-soft x-ray source channelA new evolutionary path to type ia supernovae: helium-rich super-soft x-ray s…First-generation black-hole-forming supernovae and the metal abundance pattern of a very iron-poor starFirst-generation black-hole-forming supernovae and the metal abundance pa…Dust in the early universe: dust formation in the ejecta of population III supernovaeDust in the early universe: dust formation in the ejecta of population III supe…A Comprehensive Study of Galaxies at z ∼ 9–16 Found in the Early JWST Data: Ultraviolet Luminosity Functions and Cosmic Star Formation History at the Pre-reionization EpochA Comprehensive Study of Galaxies at z ∼ 9–16 Found in the Early JWST Dat…Galactic chemical evolution: Carbon through ZincNucleosynthesis of zinc and iron-peak elements in pop III type II supernovae: comparison with abundances of very metal-poor halo starsNucleosynthesis of zinc and iron-peak elements in pop III type II supernovae:…One Hundred First Stars : Protostellar Evolution and the Final MassesNucleosynthesis Yields of Core-Collapse Supernovae and Hypernovae, and Galactic Chemical EvolutionNucleosynthesis Yields of Core-Collapse Supernovae and Hypernovae, and Gal…Nucleosynthesis in Chandrasekhar mass models for type Ia supernovae and constraints on progenitor systems and burning-front propagationNucleosynthesis in Chandrasekhar mass models for type Ia supernovae and c…199520002005201020152020202502000400060008000
Created with Highcharts 9.0.1Fraction [%]Breakdown of Most Cited Papers (Fraction)Evolution of 3-9 mo stars for z=0.001 - 0.03 and metallicity effects on type ia supernovaeEvolution of 3-9 mo stars for z=0.001 - 0.03 and metallicity effects on type i…How much Ni-56 can be produced in Core-Collapse Supernovae? Evolution and Explosions of 30-100 Msun StarsHow much Ni-56 can be produced in Core-Collapse Supernovae? Evolution a…On the minimum mass of neutron starsThe role of electron captures in chandrasekhar mass models for type ia supernovaeThe role of electron captures in chandrasekhar mass models for type ia super…Evolution of Dust in Primordial Supernova Remnants: Can Dust Grains Formed in the Ejecta Survive and be Injected into the Early Interstellar Medium?Evolution of Dust in Primordial Supernova Remnants: Can Dust Grains Forme…The First chemical enrichment in the Universe and the formation of hyper metal-poor starsThe First chemical enrichment in the Universe and the formation of hyper m…The Unique Type Ib Supernova 2005bf at Nebular Phases: A Possible Birth Event of A Strongly Magnetized Neutron StarThe Unique Type Ib Supernova 2005bf at Nebular Phases: A Possible Birth Ev…Supernova Nucleosynthesis in Population III 13-50 Solar Mass Stars and Abundance Patterns of Extremely Metal-Poor StarsSupernova Nucleosynthesis in Population III 13-50 Solar Mass Stars and Abu…Supernova Neutrino Light Curves and Spectra for Various Progenitor Stars: From Core Collapse to Proto-neutron Star CoolingSupernova Neutrino Light Curves and Spectra for Various Progenitor Stars: Fr…Variations in the abundance pattern of extremely metal-poor stars and nucleosynthesis in population III supernovaeVariations in the abundance pattern of extremely metal-poor stars and nucle…A new evolutionary path to type ia supernovae: helium-rich super-soft x-ray source channelA new evolutionary path to type ia supernovae: helium-rich super-soft x-ray s…First-generation black-hole-forming supernovae and the metal abundance pattern of a very iron-poor starFirst-generation black-hole-forming supernovae and the metal abundance pa…Dust in the early universe: dust formation in the ejecta of population III supernovaeDust in the early universe: dust formation in the ejecta of population III supe…A Comprehensive Study of Galaxies at z ∼ 9–16 Found in the Early JWST Data: Ultraviolet Luminosity Functions and Cosmic Star Formation History at the Pre-reionization EpochA Comprehensive Study of Galaxies at z ∼ 9–16 Found in the Early JWST Dat…Galactic chemical evolution: Carbon through ZincNucleosynthesis of zinc and iron-peak elements in pop III type II supernovae: comparison with abundances of very metal-poor halo starsNucleosynthesis of zinc and iron-peak elements in pop III type II supernovae:…One Hundred First Stars : Protostellar Evolution and the Final MassesNucleosynthesis Yields of Core-Collapse Supernovae and Hypernovae, and Galactic Chemical EvolutionNucleosynthesis Yields of Core-Collapse Supernovae and Hypernovae, and Gal…Nucleosynthesis in Chandrasekhar mass models for type Ia supernovae and constraints on progenitor systems and burning-front propagationNucleosynthesis in Chandrasekhar mass models for type Ia supernovae and c…19952000200520102015202020250255075100
Created with Highcharts 9.0.1Citations/1 YearCitations/PeriodCitations / 1 YearMoving average19952000200520102015202020250200400600800