Results 261 to 270 of about 1,042,247 (302)
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Hyperfine Interactions, 1978
The present knowledge of the distribution of neutrons and protons in the nucleus is reviewed. The distributions calculated by the single-particle potential method and from the Hartree-Fock theory are compared with the experimental data. Particular attention is paid to the hyperfine anomaly and the isotope shifts, and to the connection with the ...
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The present knowledge of the distribution of neutrons and protons in the nucleus is reviewed. The distributions calculated by the single-particle potential method and from the Hartree-Fock theory are compared with the experimental data. Particular attention is paid to the hyperfine anomaly and the isotope shifts, and to the connection with the ...
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AIP Conference Proceedings, 1978
Recent advances in variational and perturbative theories are surveyed which offer genuine promise that nuclear matter will soon become a viable tool for investigating nuclear interactions. The basic elements of the hypernetted chain expansion for Jastrow variational functions are briefly reviewed, and comparisons of variational and perturbative results
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Recent advances in variational and perturbative theories are surveyed which offer genuine promise that nuclear matter will soon become a viable tool for investigating nuclear interactions. The basic elements of the hypernetted chain expansion for Jastrow variational functions are briefly reviewed, and comparisons of variational and perturbative results
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1972
As indicated by the title, this article is primarily concerned with nuclear matter calculations. I have tried to discuss enough of the theory to make it reasonably self-contained, especially at the level of explaining the physical ideas underlying the development. The reader who wishes more detail may find it rewarding to consult the set of articles in
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As indicated by the title, this article is primarily concerned with nuclear matter calculations. I have tried to discuss enough of the theory to make it reasonably self-contained, especially at the level of explaining the physical ideas underlying the development. The reader who wishes more detail may find it rewarding to consult the set of articles in
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2014
Due to magnetic catalysis, a strong magnetic field enhances the chiral condensate and thus might also increase the vacuum mass of nucleons. In this thesis it is shown that magnetic catalysis can be incorporated into effective models for dense nuclear matter. In order to discuss the resulting effect on the transition between vacuum and nuclear matter, i.
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Due to magnetic catalysis, a strong magnetic field enhances the chiral condensate and thus might also increase the vacuum mass of nucleons. In this thesis it is shown that magnetic catalysis can be incorporated into effective models for dense nuclear matter. In order to discuss the resulting effect on the transition between vacuum and nuclear matter, i.
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NUCLEAR MATTER SYMMETRY ENERGY AND MATTER–ANTI-MATTER STATES
International Journal of Modern Physics D, 2004In this work we discuss points of interest for a general phase diagram of nuclear matter at alternative conditions (such as isospin broken phase and existence of anti-matter state(s)) which are relevant for the description of astrophysics. The inclusion of light isovector spin zero mesons in relativistic models of nuclear systems is discussed and ...
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Weyl, Dirac and high-fold chiral fermions in topological quantum matter
Nature Reviews Materials, 2021M Zahid Hasan +2 more
exaly
This photo show nuclear yellow matter, in that a teaspoon of salt with a drop of yellow food colouring to create a nucleus in the salt, which i then ate.
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