26 research outputs found

    Compressional-mode resonances in the molybdenum isotopes: Emergence of softness in open-shell nuclei near A=90

    Get PDF
    "Why are the tin isotopes soft?" has remained, for the past decade, an open problem in nuclear structure physics: models which reproduce the isoscalar giant monopole resonance (ISGMR) in the "doubly-closed shell" nuclei, 90^{90}Zr and 208^{208}Pb, overestimate the ISGMR energies of the open-shell tin and cadmium nuclei, by as much as 1 MeV. In an effort to shed some light onto this problem, we present results of detailed studies of the ISGMR in the molybdenum nuclei, with the goal of elucidating where--and how--the softness manifests itself between 90^{90}Zr and the cadmium and tin isotopes. The experiment was conducted using the 94,96,98,100^{94,96,98,100}Mo(α,α\alpha,\alpha^\prime) reaction at Eα=386E_\alpha = 386 MeV. A comparison of the results with relativistic, self-consistent Random-Phase Approximation calculations indicates that the ISGMR response begins to show softness in the molybdenum isotopes beginning with A=92A=92.Comment: Accepted for publication to Physics Letters

    New Wind Turbine with Wind-lens Technology

    Full text link
    corecore