Three-body forces and the limit of oxygen isotopes

Three-body forces and the limit of oxygen isotopes

The limit of neutron-rich nuclei, the neutron drip line, evolves regularly from light to medium-mass nuclei except for a striking anomaly in the oxygen isotopes. This anomaly is not reproduced in shell-model calculations derived from microscopic two-nucleon forces. Here, we present the first microsc...

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Veröffentlicht in:Physical review letters 2010-07, Vol.105 (3), p.032501-032501, Article 032501
Hauptverfasser: Otsuka, Takaharu, Suzuki, Toshio, Holt, Jason D, Schwenk, Achim, Akaishi, Yoshinori
Format: Artikel
Sprache:eng
Schlagworte:
BARYONS
BETA DECAY RADIOISOTOPES
BETA-MINUS DECAY RADIOISOTOPES
ELEMENTARY PARTICLES
EVEN-EVEN NUCLEI
FERMIONS
HADRONS
INTERACTIONS
INTERMEDIATE MASS NUCLEI
ISOTOPES
LIGHT NUCLEI
MANY-BODY PROBLEM
MATHEMATICAL MODELS
MILLISECONDS LIVING RADIOISOTOPES
NEUTRON-RICH ISOTOPES
NEUTRONS
NUCLEAR FORCES
NUCLEAR MODELS
NUCLEAR PHYSICS AND RADIATION PHYSICS
NUCLEI
NUCLEONS
OXYGEN 24
OXYGEN 28
OXYGEN ISOTOPES
RADIOISOTOPES
SHELL MODELS
THREE-BODY PROBLEM
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Zusammenfassung:The limit of neutron-rich nuclei, the neutron drip line, evolves regularly from light to medium-mass nuclei except for a striking anomaly in the oxygen isotopes. This anomaly is not reproduced in shell-model calculations derived from microscopic two-nucleon forces. Here, we present the first microscopic explanation of the oxygen anomaly based on three-nucleon forces that have been established in few-body systems. This leads to repulsive contributions to the interactions among excess neutrons that change the location of the neutron drip line from (28)O to the experimentally observed (24)O. Since the mechanism is robust and general, our findings impact the prediction of the most neutron-rich nuclei and the synthesis of heavy elements in neutron-rich environments.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.105.032501