521 research outputs found
Partial and Quasi Dynamical Symmetries in Nuclei
One of the interesting aspects in the study of atomic nuclei is the
strikingly regular behaviour many display in spite of being complex
quantum-mechanical systems, prompting the universal question of how regularity
emerges out of complexity. It is often conjectured that symmetries play a
pivotal role in our understanding of this emerging simplicity. But most
symmetries are likely to be broken, partial or both. Under such more realistic
conditions, does the concept of symmetry still provide a basis for our
understanding of regularity? I suggest that this requires the enlarged concepts
of partial and quasi dynamical symmetry.Comment: 5 pages, 5 figures, accepted for publication in Nuclear Physics New
Seniority in quantum many-body systems
The use of the seniority quantum number in many-body systems is reviewed. A
brief summary is given of its introduction by Racah in the context of atomic
spectroscopy. Several extensions of Racah's original idea are discussed:
seniority for identical nucleons in a single- shell, its extension to the
case of many, non-degenerate shells and to systems with neutrons and
protons. To illustrate its usefulness to this day, a recent application of
seniority is presented in Bose--Einstein condensates of atoms with spin.Comment: 16 pages, 1 figure, accepted for publication in the Proceedings of
The American Institute of Physic
Neutron-proton pairs in nuclei
A review is given of attempts to describe nuclear properties in terms of
neutron--proton pairs that are subsequently replaced by bosons. Some of the
standard approaches with low-spin pairs are recalled but the emphasis is on a
recently proposed framework with pairs of neutrons and protons with aligned
angular momentum. The analysis is carried out for general and applied to
nuclei in the and shells.Comment: 16 figures, 4 tables, accepted for publication in Int. J. of Modern
Physics
Seniority in quantum many-body systems. I. Identical particles in a single shell
A discussion of the seniority quantum number in many-body systems is
presented. The analysis is carried out for bosons and fermions simultaneously
but is restricted to identical particles occupying a single shell. The emphasis
of the paper is on the possibility of {\em partial} conservation of seniority
which turns out to be a peculiar property of spin-9/2 fermions but prevalent in
systems of interacting bosons of any spin. Partial conservation of seniority is
at the basis of the existence of seniority isomers, frequently observed in
semi-magic nuclei, and also gives rise to peculiar selection rules in
one-nucleon transfer reactions.Comment: 41 pages, 7 figures, 1 tables, submitted to Annals of Physic
Exactly solvable models of nuclei
In this paper a review is given of a class of sub-models of both approaches,
characterized by the fact that they can be solved exactly, highlighting in the
process a number of generic results related to both the nature of
pair-correlated systems as well as collective modes of motion in the atomic
nucleus.Comment: 34 pages, 8 figures accepted for publication in Scholarpedi
Generalized Partial Dynamical Symmetry in Nuclei
We introduce the notion of a generalized partial dynamical symmetry for which
part of the eigenstates have part of the dynamical symmetry. This general
concept is illustrated with the example of Hamiltonians with a partial
dynamical O(6) symmetry in the framework of the interacting boson model. The
resulting spectrum and electromagnetic transitions are compared with empirical
data in Dy.Comment: 12 pages, 3 figures, 1 table, Phys. Rev. Lett., in pres
Triaxiality in the interacting boson model
The signature splitting of the -vibrational band of several Ru, Pd,
Xe, Ba, Os and Pt isotopes is analyzed in the framework of the interacting
boson model (IBM). The nuclei studied are close to the -unstable SO(6)
limit of the IBM and have well-known bands. It is shown that in most
nuclei the signature splitting is better reproduced by the inclusion of a
three-body interaction between the bosons. In none of the nuclei evidence
for a stable, triaxial ground-state shape is found.Comment: Accepted for publication in Nuclear Physics
Consistent description of nuclear charge radii and electric monopole transitions
A systematic study of energy spectra throughout the rare-earth region
(even-even nuclei from Ce to W) is carried out in the framework
of the interacting boson model (IBM), leading to an accurate description of the
spherical-to-deformed shape transition in the different isotopic chains. The
resulting IBM Hamiltonians are then used for the calculation of nuclear charge
radii (including isotope and isomer shifts) and electric monopole transitions
with consistent operators for the two observables. The main conclusion of this
study is that an IBM description of charge radii and electric monopole
transitions is possible for most of the nuclei considered but that it breaks
down in the tungsten isotopes. It is suggested that this failure is related to
hexadecapole deformation.Comment: 13 pages, 5 tables, 3 figures, accepted for publication in Physical
Review
The scientific legacy of J. P. Elliott
14 pagesJames Philip Elliott, one of the towering figures of nuclear physics of the second half of the twentieth century, died on the 21st of October 2008. Obituaries appeared in the British press but relatively little attention was paid by the international scientific community to Elliott's contributions. Given their importance, in particular for theoretical nuclear physics, it seems appropriate to reflect here, two years after his death, on the scientific legacy left by Phil Elliott
Correlations between charge radii, E0 transitions, and M1 strength
4 pages, 3 figures, presented at the Conference "Nuclear Data for Science and Technology, New York, March 4-8, 2013", accepted for publication in Nuclear Data SheetsInternational audienceIn the framework of the interacting boson model, relations are derived between nuclear charge radii, electric monopole transition rates, and summed magnetic dipole transition in even-even nuclei. The proposed correlations are tested in the rare-earth region
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