Bender M, Bernard R, Bertsch G, Chiba S, Dobaczewski J, Dubray N, Giuliani SA, Hagino K, Lacroix D, Li Z, Magierski P, Maruhn J, Nazarewicz W, Pei J, Peru S, Pillet N, Randrup J, Regnier D, Reinhard PG, Robledo LM, Ryssens W, Sadhukhan J, Scamps G, Schunck N, Simenel C, Skalski J, Stetcu I, Stevenson P, Umar S, Verriere M, Vretenar D, Warda M, Aberg S (2020)
Publication Type: Journal article, Review article
Publication year: 2020
Book Volume: 47
Journal Issue: 11
There has been much recent interest in nuclear fission, due in part to a new appreciation of its relevance to astrophysics, stability of superheavy elements, and fundamental theory of neutrino interactions. At the same time, there have been important developments on a conceptual and computational level for the theory. The promising new theoretical avenues were the subject of a workshop held at the University of York in October 2019; this report summarises its findings and recommendations.
APA:
Bender, M., Bernard, R., Bertsch, G., Chiba, S., Dobaczewski, J., Dubray, N.,... Aberg, S. (2020). Future of nuclear fission theory. Journal of Physics G: Nuclear and Particle Physics, 47(11). https://dx.doi.org/10.1088/1361-6471/abab4f
MLA:
Bender, Michael, et al. "Future of nuclear fission theory." Journal of Physics G: Nuclear and Particle Physics 47.11 (2020).
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