44,206 research outputs found
-cluster states in Cr from double-folding potentials
--cluster states in Cr and Cr are investigated in the
double-folding model. This study complements a recent similar work of Souza and
Miyake \cite{Sou17} which was based on a specially shaped potential. Excitation
energies, reduced widths, intercluster separations, and intra-band transition
strengths are calculated and compared to experimental values for the ground
state bands in Cr and Cr. The -cluster potential is also
applied to elastic scattering at low and intermediate energies. Here, as a
byproduct, a larger radial extent of the neutron density in Ti is found.Comment: 9 pages, 7 figures, Europ. Phys. J. A, accepted for publicatio
Nucleosynthesis of Nb and the relevance of the low-lying isomer at 135.5 keV
Background: Because of its half-life of about 35 million years, 92Nb is
considered as a chronometer for nucleosynthesis events prior to the birth of
our sun. The abundance of 92Nb in the early solar system can be derived from
meteoritic data. It has to be compared to theoretical estimates for the
production of 92Nb to determine the time between the last nucleosynthesis event
before the formation of the early solar system.
Purpose: The influence of a low-lying short-lived isomer on the
nucleosynthesis of 92Nb is analyzed. The thermal coupling between the ground
state and the isomer via so-called intermediate states affects the production
and survival of 92Nb.
Method: The properties of the lowest intermediate state in 92Nb are known
from experiment. From the lifetime of the intermediate state and from its decay
branchings, the transition rate from the ground state to the isomer and the
effective half-life of 92Nb are calculated as a function of the temperature.
Results: The coupling between the ground state and the isomer is strong. This
leads to thermalization of ground state and isomer in the nucleosynthesis of
92Nb in any explosive production scenario and almost 100% survival of 92Nb in
its ground state. However, the strong coupling leads to a temperature-dependent
effective half-life of 92Nb which makes the 92Nb survival very sensitive to
temperatures as low as about 8 keV, thus turning 92Nb at least partly into a
thermometer.
Conclusions: The low-lying isomer in 92Nb does not affect the production of
92Nb in explosive scenarios. In retrospect this validates all previous studies
where the isomer was not taken into account. However, the dramatic reduction of
the effective half-life at temperatures below 10 keV may affect the survival of
92Nb after its synthesis in supernovae which are the most likely astrophysical
site for the nucleosynthesis of 92Nb.Comment: 5 pages, 3 figures; Phys. Rev. C, accepted for publicatio
Photon-induced Reactions in Stars and in the Laboratory: A Critical Comparison
Photon-induced reactions during the astrophysical p- (or gamma-) process
occur at typical temperatures of 1.8 < T9 < 3.3. Experimental data of
(gamma,n), (gamma,p), or (gamma,alpha) reactions - if available in the relevant
energy region - cannot be used directly to measure astrophysical (gamma,n),
(gamma,p), or (gamma,alpha) reaction rates because of the thermal excitation of
target nuclei at these high temperatures. Usually, statistical model
calculations are used to predict photon-induced reaction rates. The relations
between experimental reaction cross sections, theoretical predictions, and
astrophysical reaction rates will be critically discussed.Comment: 8 pages, 2 figures, Proc. Tours Symposium Nuclear Physics V 2003,
p.53
Cross sections of -induced reactions for targets with masses at low energies
A simple reduction scheme using so-called reduced energies and
reduced cross sections allows the comparison of heavy-ion
induced reaction cross sections for a broad range of masses of projectile and
target and over a wide energy range. A global behavior has been found for
strongly bound projectiles whereas much larger reduced cross sections have been
observed for weakly bound and halo projectiles. It has been shown that this
simple reduction scheme works also well for -particle induced reactions
on heavy target nuclei, but very recently significant deviations have been seen
for +S and +Na. Motivated by these unexpected
discrepancies, the present study analyses -induced reaction cross
sections for targets with masses . The study shows that the
experimental data for -induced reactions on nuclei with deviate slightly from the global behavior of reduced cross sections.
However, in general the deviations evolve smoothly towards lower masses. The
only significant outliers are the recent data for S and Na which
are far above the general systematics, and some very old data may indicate that
Ar and Ar are below the general trend. As expected, also the
doubly-magic Ca nucleus lies slightly below the results for its
neighboring nuclei. Overall, the experimental data are nicely reproduced by a
statistical model calculation utilizing the simple -nucleus potential
by McFadden and Satchler. Simultaneously with the deviation of reduced cross
sections from the general behavior, the outliers Na,
S, Ar, and Ar also show significant disagreement between
experiment and statistical model calculation.Comment: 41 pages, 66 figures, EPJA invited review, in pres
alpha-cluster states in intermediate mass nuclei
Properties of intermediate mass nuclei have been investigated within the
framework of the alpha-cluster model in combination with systematic
double-folding potentials. Previously, this alpha-cluster model has been widely
applied to light nuclei, in particular to 8Be = alpha \otimes alpha, 20Ne = 16O
\otimes alpha, and 44Ti = 40Ca \otimes alpha, and to heavy nuclei, in
particular to 212Po = 208Pb \otimes alpha. In the present work a wide range of
nuclei is investigated with the magic neutron number N = 50 in the mass range
around A \approx 80 - 100: (A+4,N=52) = (A,N=50) \otimes alpha. It is found
that excitation energies, decay properties, and transition strengths can be
described successfully within this model. The smooth and small variation of the
underlying parameters of the alpha-nucleus potential may be used for
extrapolations to predict experimentally unknown properties in the nuclei under
study.Comment: 9 pages, 7 figures, TONPPJ, accepte
Dilepton mass edge measurement in SUSY events with CMS
Within the mSUGRA model, the observability of the decay of the next to
lightest neutralino into leptons and the lightest neutralino has been studied
using a full simulation of the CMS detector. The final state signature consists
of two opposite sign leptons, several hard jets and missing transverse energy.
The expected precision of the measurement of the dilepton mass edge is reported
for 1 fb^-1 of data, including systematic and statistic uncertainties,
comparing two benchmark points with different signatures.Comment: 4 pages, 6 figures, Proceedings of the XLIVth Recontres de Moriond on
Electroweak Interactions and Unified Theories, La Thuile, March 200
Total reaction cross section of -induced reactions from elastic scattering: the example Ce(,)Ce
Angular distributions of elastic Ce(,)Ce
scattering are analyzed in the framework of the optical model from low energies
around the Coulomb barrier up to about 40\,MeV. From the local fits the total
reaction cross section is extracted. This procedure
requires experimental scattering data with small uncertainties. The results for
are compared to predictions of different systematic global
potentials. It is found that the total reaction cross section
is well predicted from all global potentials under study
although the reproduction of the angular distributions is not perfect in all
cases. In addition, the lower energy limit for the extraction of
from elastic scattering angular distributions is analyzed.
Finally, the potentials under study are used to calculate the
Nd(n,)Ce cross section, and the predictions are
compared to experimental data.Comment: 11 pages, 7 figures, Phys. Rev. C, accepted for publicatio
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