J
Joachim Görres
Researcher at Joint Institute for Nuclear Astrophysics
Publications - 258
Citations - 6512
Joachim Görres is an academic researcher from Joint Institute for Nuclear Astrophysics. The author has contributed to research in topics: Nucleosynthesis & Nuclear reaction. The author has an hindex of 40, co-authored 247 publications receiving 5888 citations. Previous affiliations of Joachim Görres include University of Pennsylvania & University of Notre Dame.
Papers
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Journal ArticleDOI
rp-process nucleosynthesis at extreme temperature and density conditions
Hendrik Schatz,Ani Aprahamian,Joachim Görres,Michael Wiescher,Thomas Rauscher,J.F. Rembges,Friedrich-Karl Thielemann,B. Pfeiffer,P. Möller,Karl-Ludwig Kratz,H. Herndl,B. A. Brown,H. Rebel +12 more
TL;DR: In this paper, the influence of nuclear structure on the rp-process between Ge and Sn in various scenarios was investigated and it was shown that 2p-capture reactions accelerate the reaction flow into the Z greater than or equal to 36 region considerably.
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Reaction Rate Uncertainties and the Production of 19F in Asymptotic Giant Branch Stars
Maria Lugaro,Claudio Ugalde,Amanda I. Karakas,Joachim Görres,Michael Wiescher,John C. Lattanzio,Robert C Cannon +6 more
TL;DR: In this article, a detailed analysis of the reaction rates involved in the production of 19F and the effects of their uncertainties were performed for a large set of models with different masses and metallicity.
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Reaction Rates Uncertainties and the Production of F19 in AGB Stars
Maria Lugaro,Claudio Ugalde,Amanda I. Karakas,Joachim Görres,Michael Wiescher,John C. Lattanzio,Robert C Cannon +6 more
TL;DR: In this paper, a detailed analysis of the reaction rates involved in the production of 19F stellar yields and the effects of their uncertainties are presented, and the major uncertainties are associated with the 14C(alpha,gamma)18O and the 19F(α,p)22Ne reaction rates.
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The C12(α,γ)O16 reaction and its implications for stellar helium burning
Richard deBoer,Joachim Görres,Michael Wiescher,R. E. Azuma,A. Best,Carl R. Brune,C. E. Fields,Samuel Jones,Marco Pignatari,D. Sayre,Karl Smith,Francis Timmes,E. Uberseder +12 more
TL;DR: A review of the current understanding of the C12(α, 3)O16 reaction can be found in this article, where the emphasis is placed primarily on the experimental work and interpretation of the reaction data, but discussions of the theory and astrophysics are also pursued.
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AZURE: An R-matrix code for nuclear astrophysics
R. E. Azuma,R. E. Azuma,Ethan Uberseder,Edward Simpson,Edward Simpson,Carl R. Brune,H. Costantini,R.J. de Boer,Joachim Görres,Michael Heil,P. J. LeBlanc,Claudio Ugalde,Michael Wiescher +12 more
TL;DR: In this article, the authors describe a multilevel, multichannel R-matrix code, AZURE, for applications in nuclear astrophysics, which allows simultaneous analysis and extrapolation of low-energy particle scattering, capture, and reaction cross sections of relevance to stellar hydrogen, helium, and carbon burning.