K. Brandenburg scite author profile

We have measured the K-shell internal conversion coefficient, αK , for the 88.2-keV M 4 transition from the 106-day isomer to the ground state in 127 Te to be 484(6). When compared with Dirac-Fock calculations of αK , this result agrees well with the version of the theory that incorporates the effect of the K-shell atomic vacancy and disagrees with the one that does not. As a byproduct of this measurement, we have determined the beta branching from the isomer to be 2.14(3)%.

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Influence of Rb73 on the ashes of accreting neutron stars

Hoff

Rogers

Meisel

et al. 2020

Phys. Rev. C

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We find that the proton separation energy, S(p), of 73 Rb is −640(40) keV, deduced from the observation of β-delayed ground-state protons following the decay of 73 Sr. This lower-limit determination of the proton separation energy of 73 Rb coupled with previous upper limits from nonobservation, provides a full constraint on the mass excess with M( 73 Rb) =−46.01 ± 0.04 MeV. With this new mass excess and the excitation energy of the J π = 5/2 − isobaric-analog state (T = 3/2) in 73 Rb, an improved constraint can be put on the mass excess of 73 Sr using the isobaric-multiplet mass equation (IMME), and we find M( 73 Sr) =−31.98 ± 0.37 MeV. These new data were then used to study the composition of ashes on accreting neutron stars following Type I xray bursts. Counterintuitively, we find that there should be an enhanced fraction of A > 102 nuclei with more negative proton separation energies at the 72 Kr rp-process waiting point. Larger impurities of heavier nuclei in the ashes of accreting neutron stars will impact the cooling models for such astrophysical scenarios.

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Diagnostic measurements of CUEBIT based on the dielectronic resonance process

Takács

Kimmel

Brandenburg

et al. 2015

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In this paper we report the first observation of x-ray radiation from the new Clemson University Electron Beam Ion Trap (CUEBIT). The analysis of the emitted dielectronic recombination x-ray photons from highly charged argon ions allowed us to probe parameters specific to the ion cloud inside the machine. Argon dielectronic resonances could provide a standard method to cross-compare the electron beam and ion cloud characteristics of different devices.

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The ORNL Deuterated Spectroscopic Array — ODeSA

Febbraro¹,

Toomey²,

Pain³

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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K. Brandenburg

Mirror-symmetry violation in bound nuclear ground states

Precise measurement of αK for the 88.2-keV M4 transition in Te127 : Test of internal-con

Influence of Rb73 on the ashes of accreting neutron stars

Diagnostic measurements of CUEBIT based on the dielectronic resonance process

The ORNL Deuterated Spectroscopic Array — ODeSA

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