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Energy Levels of Light Nuclei A = 17
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TLDR
An evaluation of A = 16-17 was published in Nuclear Physics A564 (1993), p. 1. as mentioned in this paper corrected some errors discovered after the article went to press.Abstract:
An evaluation of A = 16-17 was published in Nuclear Physics A564 (1993), p. 1. This version of A = 17 differs from the published version in that we have corrected some errors discovered after the article went to press. The introductio n and introductory tables have been omitted from this manuscript. Reference key numbers have been changed to the NNDC/TUNL format.read more
Citations
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NACRE II: an update of the NACRE compilation of charged-particle-induced thermonuclear reaction rates for nuclei with mass number A < 16
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Dark Matter Interpretation of the Neutron Decay Anomaly.
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The Decay of
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References
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TL;DR: This biennial Review summarizes much of particle physics, using data from previous editions.
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Accurate nucleon-nucleon potential with charge-independence breaking
TL;DR: The authors present a new high-quality nucleon-nucleon potential with explicit charge dependence and charge asymmetry, which they designate Argonne {upsilon}{sub 18}.
Journal ArticleDOI
Nuclear charge-density-distribution parameters from elastic electron scattering
TL;DR: A compilation of nuclear charge density-distribution parameters, obtained from elastic electron scattering, is presented in five separate tables as discussed by the authors, and the positions and amplitudes for the expansion in a sum of gaussians are given.
Journal ArticleDOI
Measurements of Interaction Cross-Sections and Nuclear Radii in the Light p Shell Region
Isao Tanihata,Hideki Hamagaki,Osamu Hashimoto,Y. Shida,N. Yoshikawa,K. Sugimoto,O. Yamakawa,T. Kobayashi,N. Takahashi +8 more
TL;DR: The nucleus of the known Li isotopes showed a remarkably large radius suggesting a large deformation or a long tail in the matter distribution, and was observed for the first time.
Journal ArticleDOI
Thermonuclear reaction rates V
TL;DR: In this paper, the reaction rates of astrophysically important thermonuclear reactions involving low-mass nuclei were analyzed for the temperature range 106 ⩽ T ⌽ 1010 K.