Search results for "atomic nuclei"

showing 4 items of 4 documents

Occupation probabilities of single particle levels using the microscopic interacting boson model: Application to some nuclei of interest in neutrinol…

2016

We have developed a new method to calculate the occupancies of single particle levels in atomic nuclei. This method has been developed in the context of the microscopic interacting boson model, in which neutron and proton degrees of freedom are treated explicitly. The energies of the single particle levels constitute a very important input for the calculation of the occupancies in this method. In principle these energies can be considered as input parameters that can be fitted to reproduce the experimental occupancies. Instead of fitting, in this study we have extracted the single particle energies from experimental data on nuclei with a particle more or one particle less than a shell closu…

single particle levelsatomic nucleimicroscopic interacting boson modelNuclear Theorydouble beta decay
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Occupation probabilities of single particle levels using the microscopic interacting boson model: Application to some nuclei of interest in neutrinol…

2016

We have developed a new method to calculate the occupancies of single particle levels in atomic nuclei. This method has been developed in the context of the microscopic interacting boson model, in which neutron and proton degrees of freedom are treated explicitly. The energies of the single particle levels constitute a very important input for the calculation of the occupancies in this method. In principle these energies can be considered as input parameters that can be fitted to reproduce the experimental occupancies. Instead of fitting, in this study we have extracted the single particle energies from experimental data on nuclei with a particle more or one particle less than a shell closu…

Physicsta114Proton010308 nuclear & particles physicsNuclear TheoryDegrees of freedom (physics and chemistry)double beta decayContext (language use)01 natural sciences7. Clean energyNuclear physicssingle particle levelsParticle decayatomic nucleimicroscopic interacting boson model0103 physical sciencesAtomic nucleusParticleNeutronInteracting boson modelAtomic physics010303 astronomy & astrophysicsPhysical Review C
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Rare weak decays and nuclear structure

2014

Abstract. Weak interactions cause the atomic nuclei to decay via beta and double beta decays. Double beta decays are extremely rare since they are weak-interaction processes of the second order. Also (single) beta decays can be extremely rare. This can be caused by either a large di ff erence between the spins of the initial and final state (the so-called “forbidden” beta decays) or an extremely small Q value (decay energy) of the decay. All these cases are discussed in this article, and particular emphasis is given to the neutrino- less double electron capture on the double beta side of decays. peerReviewed

PhysicsParticle physicsSpinsta114Q valueElectron capturePhysicsQC1-999Nuclear structureweak decaysNuclear physicsDecay energyatomic nucleiAtomic nucleusnuclear structureweak interactionsBeta (velocity)High Energy Physics::ExperimentNeutrinoEPJ Web of Conferences
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The dawning of the theory of equilibrium figures: a brief historical account from the 16th through the 20th century

2014

A very brief historical survey of the theory of equilibrium figures is outlined, from the early origins, dating back to the late 1500s, until up the latest 20th century developments. A seen toward physical applications, ranging from relativistic astrophysics through nuclear physics, is also provided.

celestial bodieatomic nucleiSelf-gravitanting fluid; hydrodynamics; celestial bodies; atomic nucleiSelf-gravitanting fluidhydrodynamic
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