R. V. F. Janssens scite author profile

A rotational band with seven gamma-ray transitions between states with spin 2 Planck's constant and 16 Planck's constant has been observed in the doubly magic, self-conjugate nucleus (40)(20)Ca(20). The measured transition quadrupole moment of 1.80(+0.39)(-0.29)eb indicates a superdeformed shape with a deformation beta(2) = 0.59(+0.11)(-0.07). The features of this band are explained by cranked relativistic mean field calculations to arise from an 8-particle 8-hole excitation.

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Superdeformed Nuclei

Janssens¹,

Khoo²

1991

Annu. Rev. Nucl. Part. Sci.

260

135

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Radius of curvature of theSfactor maximum in sub-barrier fusion hindrance

et al. 2007

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Laser Spectroscopic Determination of theH6eNuclear Charge Radius

et al. 2004

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We have performed precision laser spectroscopy on individual 6He (t(1/2)=0.8 s) atoms confined and cooled in a magneto-optical trap, and measured the isotope shift between 6He and 4He to be 43 194.772+/-0.056 MHz for the 2(3)S1-3(3)P2 transition. Based on this measurement and atomic theory, the nuclear charge radius of 6He is determined for the first time in a method independent of nuclear models to be 2.054+/-0.014 fm. The result is compared with the values predicted by a number of nuclear structure calculations and tests their ability to characterize this loosely bound halo nucleus.

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Stabilization of Nuclear Isovector Valence-Shell Excitations

et al. 2006

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Excited states in 138Ce have been studied via the 12C(138Ce, 138Ce*) Coulomb excitation reaction at 480 MeV. Relative cross sections have been determined from the gamma-ray yields observed with Gammasphere. The E2 and M1 strength distributions between the lowest six 2+ states up to 2.7 MeV enables us to identify the 2(4)+ state in 138Ce as the dominant fragment of the one-phonon 2(1,ms)+ mixed-symmetry state. Mixing between this level and a nearby isoscalar state is observed and is more than 4 times larger than in the neighboring isotone 136Ba. This is direct evidence that the stability of mixed-symmetry states strongly depends on the underlying subshell structure.

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R. V. F. Janssens

Superdeformation in the Doubly Magic NucleusC2040a20

Superdeformed Nuclei

Radius of curvature of theSfactor maximum in sub-barrier fusion hindrance

Laser Spectroscopic Determination of theH6eNuclear Charge Radius

Stabilization of Nuclear Isovector Valence-Shell Excitations

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