285 research outputs found
Role of the Delta Resonance in the Population of a Four-Nucleon State in the 56Fe to 54Fe Reaction at Relativistic Energies
The 54Fe nucleus was populated from a 56Fe beam impinging on a Be target with an energy of E/A=500MeV. The internal decay via γ-ray emission of the 10+ metastable state was observed. As the structure of this isomeric state has to involve at least four unpaired nucleons, it cannot be populated in a simple two-neutron removal reaction from the 56Fe ground state. The isomeric state was produced in the low-momentum (-energy) tail of the parallel momentum (energy) distribution of 54Fe, suggesting that it was populated via the decay of the Δ0 resonance into a proton. This process allows the population of four-nucleon states, such as the observed isomer. Therefore, it is concluded that the observation of this 10+ metastable state in 54Fe is a consequence of the quark structure of the nucleons
Systematic shell-model study on spectroscopic properties in the south region of Pb
We aim to study the properties of nuclei in the south region of Pb
systematically, including the binding and excitation energies and
electromagnetic properties, in order to predict unknown properties of these
nuclei, such as isomerism, utilizing a theoretical model which describes the
experimentally known properties precisely. We also address whether the
shell closure is robust or not when the proton number decreases from
Pb. We performed large-scale shell-model calculations with a new
Hamiltonian suggested in the present work. The model space is taken as the five
proton orbits within and the thirteen neutron orbits within
. And one-particle one-hole excitation is allowed across the
gap. The Hamiltonian is constructed by combining the existing
Hamiltonians, KHHE (with adjustment of its proton-proton part) and KHPE, and
the monopole based universal interaction. The shell-model results well
reproduce the experimentally observed binding energies and spectroscopic
properties, such as isomerism, core excitation, and electromagnetic properties.
Some possible isomeric states in neutron-rich Pb, Tl, and Hg isotopes are
predicted with transition energies and half-lives. We also examine the
effective charges and the quenching of the factors suitable for this region
by systematic comparisons between observed and calculated electromagnetic
properties. A new Hamiltonian is constructed for nuclei in the south region of
Pb, mainly including Pb, Tl, Hg, Au, Pt, Ir, Os, Re, and W isotopes
around , and provides them reasonable descriptions on nuclear properties
including binding energies, excitation energies and electromagnetic properties
through comprehensive and systematic studies
Discovery of isomers in dysprosium, holmium, and erbium isotopes with N = 94 to 97
High-spin states in the 68164Er96 region were studied using 9Be + 160Gd reactions. Pulsed beam conditions were exploited for enhanced sensitivity to delayed γ-ray transitions. New isomers were identified in 161Dy, 163Ho, 162Er, and 165Er. The 162Er isom
On the β-detection efficiency of a combined Si and plastic stack detector for DESPEC
A Geant4 simulation has been carried out in order to determine the B-detection efficiency of a rare isotope
beam implantation setup, for decay spectroscopy experiments, comprising a number of Double Sided Silicon
Strip Detectors (DSSSDs) and two plastic scintillation detectors placed upstream and downstream. The
absolute efficiency for the emitted B-particle detection from radioactive fragments implanted in the DSSSDs
using fast-timing plastic-scintillator detector, is calculated. The detection efficiency of the setup has been
studied with two different distances between the Si layers and plastics. The requirement for the thickness of
the Si detector layers and its implication on the B-detection effciency has been investigated for 1 mm and
300 um thickness of Si layers. The combined efficiency of DSSSD and plastic detectors were also simulated
for two different thicknesses of the DSSSD
Discovery of a nonyrast Kπ=8+ isomer in Dy162, and the influence of competing K-mixing mechanisms on its highly forbidden decay
The Gd160(Be9,α3n)Dy162 reaction has been used to study high-spin states in Dy162. Pulsed beam conditions were utilized for enhanced isomer sensitivity. An isomer at 2188.1(3) keV with a half-life of 8.3(3) μs has been discovered and assigned Kπ= 8+ with a two-quasineutron configuration. Among 11 γ-ray decay branches, an E2, ΔK=8 transition to the ground-state band was observed with a reduced hindrance of fν=35, agreeing well with systematics correlating fν with the product of the valence neutron and proton numbers (NpNn) over an extended N,Z range. Small deviations from NpNn dependence are analyzed for a range of two-quasiparticle isomer decays and interpreted as arising from a weak dependence on the isomer excitation energy relative to the yrast line
Core excitations across the neutron shell gap in ²⁰⁷Tl
The single closed-neutron-shell, one proton-hole nucleus 207Tl was populated in deep-inelastic collisions of a 208Pb beam with a 208Pb target. The yrast and near-yrast level scheme has been established up to high excitation energy, comprising an octupol
Population of high-spin isomeric states following fragmentation of 238 U
Isomeric ratios have been determined for 23 metastable states identified in A?200 nuclei from Pt to Rn near the valley of stability following fragmentation of 238U. This includes high-spin states with angular momenta ranging from (39/2) to 25. The experimental results are discussed together with those of similar experiments performed in this mass region. Isomeric ratios are compared with theoretical predictions where the angular momentum of the fragment arises purely due to the angular momentum of nucleons removed from the projectile. The theoretical yield of low-spin states is generally overestimated. In these cases the assumption of 100% feeding of the isomer may require modification. However, the yield of high-spin isomeric states [Im ? (39/2)] is significantly underestimated and highlights the requirement for a more complete theoretical framework in relation to the generation of fragment angular momentum. The enhanced population of high-spin states reported here is advantageous to future studies involving isomeric beams at fragmentation facilities such as the Rikagaku Kenkyusho RI Beam Factory (Japan) and next-generation facilities at the Facility for Antiproton and Ion Research (Germany) and Facility for Rare Isotope Beams (USA). � 2013 American Physical Society
Electromagnetic transition rates in the Ν = 80 nucleus 138/58Ce
The half-life of the I?=6+ yrast state at Ex=2294 keV in 138Ce has been measured as T1/2=880(19) ps using the fast-timing ?-ray coincidence method with a mixed LaBr3(Ce)- HPGe array. The excited states in 138Ce have been populated by the 130Te(12C,4n) fusion-evaporation reaction at an incident beam energy of 56 MeV. The extracted B(E2;61+?41+)=0.101(24) W.u. value is compared with the predictions of truncated basis shell model calculations and with the systematics of the region. This shows an anomalous behavior compared to the neighboring isotonic and isotopic chains. Half-lives for the yrast 5-, 11+ and 14+ states in 138Ce have also been determined in this work. � 2013 American Physical Society
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