E
Edward Simpson
Researcher at Australian National University
Publications - 107
Citations - 1912
Edward Simpson is an academic researcher from Australian National University. The author has contributed to research in topics: Nucleon & Neutron. The author has an hindex of 18, co-authored 107 publications receiving 1510 citations. Previous affiliations of Edward Simpson include University of Notre Dame & University of York.
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Journal ArticleDOI
Solar fusion cross sections II: the pp chain and CNO cycles
Eric Adelberger,Alejandro Garcia,R. G. Hamish Robertson,K. A. Snover,A. B. Balantekin,K. M. Heeger,Michael J. Ramsey-Musolf,Daniel Bemmerer,Arnd R. Junghans,Carlos A. Bertulani,Jiunn-Wei Chen,H. Costantini,Paolo Prati,Manoel Couder,Ethan Uberseder,Michael Wiescher,Richard H. Cyburt,Barry Davids,Stuart Freedman,Moshe Gai,D. Gazit,L. Gialanella,Gianluca Imbriani,Uwe Greife,Michael Hass,Wick Haxton,Takahisa Itahashi,Kuniharu Kubodera,K. Langanke,Daniela Leitner,Matthaeus Leitner,Paul Vetter,L. Winslow,Laura Elisa Marcucci,T. Motobayashi,A. M. Mukhamedzhanov,R. E. Tribble,Kenneth M. Nollett,Filomena Nunes,T.-S. Park,P. D. Parker,Rocco Schiavilla,Edward Simpson,Claudio Spitaleri,Frank Strieder,H. P. Trautvetter,K. Suemmerer,Stefan Typel +47 more
TL;DR: The available data on nuclear fusion cross sections important to energy generation in the Sun and other hydrogen-burning stars and to solar neutrino production are summarized and critically evaluated in this article.
Journal ArticleDOI
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.
Journal ArticleDOI
Report on G4‐Med, a Geant4 benchmarking system for medical physics applications developed by the Geant4 Medical Simulation Benchmarking Group
Pedro Arce,David Bolst,Marie-Claude Bordage,Jeremy M. C. Brown,P. Cirrone,M. A. Cortés-Giraldo,Dean L Cutajar,Giacomo Cuttone,Laurent Desorgher,Paolo Dondero,Andrea Dotti,Bruce A. Faddegon,Christian Fedon,Susanna Guatelli,Sebastien Incerti,Vladimir Ivanchenko,Vladimir Ivanchenko,Dmitri Konstantinov,Ioanna Kyriakou,G. Latyshev,A. Le,Carlo Mancini-Terracciano,M. Maire,A. Mantero,Mihaly Novak,Chihiro Omachi,Luciano Pandola,A. Perales,Yann Perrot,Giada Petringa,J. M. Quesada,José Ramos-Méndez,F. Romano,Anatoly B. Rosenfeld,Luis Sarmiento,Dosatsu Sakata,Takashi Sasaki,Ioannis Sechopoulos,Edward Simpson,Toshiyuki Toshito,D. H. Wright +40 more
TL;DR: The tests included in G4-Med are described and the results derived from the benchmarking of Geant4 10.5 against reference data will aid users in tailoring physics lists to their particular application.
Journal ArticleDOI
One- and two-neutron removal reactions from the most neutron-rich carbon isotopes
Nagao Kobayashi,Takashi Nakamura,J. A. Tostevin,Yosuke Kondo,N. Aoi,Hidetada Baba,S. Deguchi,Julien Gibelin,Masamichi Ishihara,Y. Kawada,T. Kubo,Tohru Motobayashi,Tsuyoshi Ohnishi,N. A. Orr,Hideaki Otsu,Hiroyoshi Sakurai,Y. Satou,Edward Simpson,Toshiyuki Sumikama,Hiroyuki Takeda,M. Takechi,Satoshi Takeuchi,K. Tanaka,N Tanaka,Yasuhiro Togano,K. Yoneda +25 more
TL;DR: The structure of 19,20,22C has been investigated using high-energy (around 240 MeV/nucleon) one-and two-neutron removal reactions on a carbon target.
Journal ArticleDOI
Triple configuration coexistence in 44S
Daniel Santiago-Gonzalez,I. Wiedenhöver,Volha Abramkina,Melina Avila,T. Baugher,D. Bazin,B. A. Brown,P. D. Cottle,Alexandra Gade,T. Glasmacher,K. W. Kemper,S. McDaniel,A. Rojas,A. Ratkiewicz,Rhiannon Meharchand,Edward Simpson,J. A. Tostevin,Alexander Volya,D. Weisshaar +18 more
TL;DR: In this article, the authors used the two-proton knockout reaction at intermediate beam energy to study the neutron-rich nucleus of the N = 28$ nucleus and reported the observation of four new excited states, one of which is a strongly prolate deformed 4${}^{+}$ state, as indicated by a shell-model calculation.