Why is 82208Pb the heaviest stable nuclide?

Why is 82208Pb the heaviest stable nuclide?

In an effort to understand nuclei in terms of quarks we develop an effective theory to low-energy quantum chromodynamics in which a single quark contained in a nucleus is driven by a mean field due to other constituents of the nucleus. We analyze the reason why the number of d quarks in light stable...

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Veröffentlicht in:The European physical journal. C, Particles and fields Particles and fields, 2024-08, Vol.84 (8), p.807
Hauptverfasser: Kosyakov, B. P., Popov, E. Yu, Vronskiĭ, M. A.
Format: Artikel
Sprache:eng
Schlagworte:
Astronomy
Astrophysics and Cosmology
Black holes
Elementary Particles
Gravity
Hadrons
Heavy Ions
Heavy nuclei
Measurement Science and Instrumentation
Nuclear Energy
Nuclear Physics
Periodic table
Physics
Physics and Astronomy
Quantum chromodynamics
Quantum Field Theories
Quantum Field Theory
Quarks
Regular Article – Theoretical Physics
String Theory
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Zusammenfassung:In an effort to understand nuclei in terms of quarks we develop an effective theory to low-energy quantum chromodynamics in which a single quark contained in a nucleus is driven by a mean field due to other constituents of the nucleus. We analyze the reason why the number of d quarks in light stable nuclei is much the same as that of u quarks, while for heavier nuclei beginning with 20 40 Ca , the number of d quarks is greater than the number of u quarks. To account for the finiteness of the periodic table, we invoke a version of gauge/gravity duality between the dynamical affair in stable nuclei and that in extremal black holes. With the assumption that the end of stability for heavy nuclei is dual to the occurrence of a naked singularity, we find that the maximal number of protons in stable nuclei is Z max H ≈ 82 .
ISSN:1434-6044
1434-6052
DOI:10.1140/epjc/s10052-024-13185-8