560 research outputs found
Low-energy cross section of the 7Be(p,g)8B solar fusion reaction from Coulomb dissociation of 8B
Final results from an exclusive measurement of the Coulomb breakup of 8B into
7Be+p at 254 A MeV are reported. Energy-differential Coulomb-breakup cross
sections are analyzed using a potential model of 8B and first-order
perturbation theory. The deduced astrophysical S_17 factors are in good
agreement with the most recent direct 7Be(p,gamma)8B measurements and follow
closely the energy dependence predicted by the cluster-model description of 8B
by Descouvemont. We extract a zero-energy S_17 factor of 20.6 +- 0.8 (stat) +-
1.2 (syst) eV b.Comment: 14 pages including 16 figures, LaTeX, accepted for publication in
Physical Review C. Minor changes in text and layou
Molecular Mechanism of Thymidylate Synthase Inhibition by N 4 Hydroxy dCMP in View of Spectrophotometric and Crystallographic Studies
Novel evidence is presented allowing further clarification of the mechanism of the slow binding thymidylate synthase TS inhibition by N4 hydroxy dCMP N4 OH dCMP . Spectrophotometric monitoring documented time and temperature , and N4 OH dCMP dependent TS catalyzed dihydrofolate production, accompanying the mouse enzyme incubation with N4 OH dCMP and N5,10 methylenetetrahydrofolate, known to inactivate the enzyme by the covalent binding of the inhibitor, suggesting the demonstrated reaction to be uncoupled from the pyrimidine C 5 methylation. The latter was in accord with the hypothesis based on the previously presented structure of mouse TS cf. PDB ID 4EZ8 , and with conclusions based on the present structure of the parasitic nematode Trichinella spiralis, both co crystallized with N4 OH dCMP and N5,10 methylenetetrahdrofolate. The crystal structure of the mouse TS N4 OH dCMP complex soaked with N5,10 methylenetetrahydrofolate revealed the reaction to run via a unique imidazolidine ring opening, leaving the one carbon group bound to the N 10 atom, thus too distant from the pyrimidine C 5 atom to enable the electrophilic attack and methylene group transfe
Core-coupled states and split proton-neutron quasi-particle multiplets in 122-126Ag
Neutron-rich silver isotopes were populated in the fragmentation of a 136Xe
beam and the relativistic fission of 238U. The fragments were mass analyzed
with the GSI Fragment separator and subsequently implanted into a passive
stopper. Isomeric transitions were detected by 105 HPGe detectors. Eight
isomeric states were observed in 122-126Ag nuclei. The level schemes of
122,123,125Ag were revised and extended with isomeric transitions being
observed for the first time. The excited states in the odd-mass silver isotopes
are interpreted as core-coupled states. The isomeric states in the even-mass
silver isotopes are discussed in the framework of the proton-neutron split
multiplets. The results of shell-model calculations, performed for the most
neutron-rich silver nuclei are compared to the experimental data
Evidence for reduced collectivity around the neutron mid-shell in the stable even-mass Sn isotopes from new lifetime measurements
Precise measurements of the lifetimes of the first excited 2+ states in the stable even-A Sn isotopes 112-124Sn have been performed using the Doppler shift attenuation technique. For the isotopes 112Sn, 114Sn and 116Sn the E2 transition strengths deduced from the measured lifetimes are in disagreement with the previously reported values and indicate a shallow minimum at N=66. The observed deviation from a maximum at mid-shell is attributed to the obstructive effect of the s1/2 neutron orbital in generating collectivity when near the Fermi level. © 2010 Elsevier B.V.Financial support from the Spanish Ministerio de Ciencia e Innovaci on under contracts FPA2007-66069, FPA2009-13377-C02-01 and FPA2009-13377-C02-02, the Spanish Consolider-Ingenio 2010 Programme CPAN (CSD2007-00042) and the Australian Re- search Council Discovery Scheme, grant no. DP0773273Peer Reviewe
The High-Acceptance Dielectron Spectrometer HADES
HADES is a versatile magnetic spectrometer aimed at studying dielectron
production in pion, proton and heavy-ion induced collisions. Its main features
include a ring imaging gas Cherenkov detector for electron-hadron
discrimination, a tracking system consisting of a set of 6 superconducting
coils producing a toroidal field and drift chambers and a multiplicity and
electron trigger array for additional electron-hadron discrimination and event
characterization. A two-stage trigger system enhances events containing
electrons. The physics program is focused on the investigation of hadron
properties in nuclei and in the hot and dense hadronic matter. The detector
system is characterized by an 85% azimuthal coverage over a polar angle
interval from 18 to 85 degree, a single electron efficiency of 50% and a vector
meson mass resolution of 2.5%. Identification of pions, kaons and protons is
achieved combining time-of-flight and energy loss measurements over a large
momentum range. This paper describes the main features and the performance of
the detector system
Single-particle isomeric states in 121Pd and 117Ru
Neutron-rich nuclei were populated in a relativistic fission of 238U.
Gamma-rays with energies of 135 keV and 184 keV were associated with two
isomeric states in 121Pd and 117Ru. Half-lives of 0.63(5) microseconds and
2.0(3) micrisecondss were deduced and the isomeric states were interpreted in
terms of deformed single-particle states
Single-particle isomeric states in 121Pd and 117Ru
Neutron-rich nuclei were populated in a relativistic fission of 238U.
Gamma-rays with energies of 135 keV and 184 keV were associated with two
isomeric states in 121Pd and 117Ru. Half-lives of 0.63(5) microseconds and
2.0(3) micrisecondss were deduced and the isomeric states were interpreted in
terms of deformed single-particle states
Single-particle isomeric states in 121Pd and 117Ru
Neutron-rich nuclei were populated in a relativistic fission of 238U.
Gamma-rays with energies of 135 keV and 184 keV were associated with two
isomeric states in 121Pd and 117Ru. Half-lives of 0.63(5) microseconds and
2.0(3) micrisecondss were deduced and the isomeric states were interpreted in
terms of deformed single-particle states
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