C. E. Mertin scite author profile

C. E. Mertin

3Publications

3Citation Statements Received

132Citation Statements Given

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128

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Florida State University

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Single particle strengths and mirror states inN15−O15below 12.0 MeV

et al. 2015

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New14 N(d,p) angular distribution data were taken at a deuteron bombarding energy of 16 MeV to locate all narrow peaks up to 15 MeV in excitation. A new shell model calculation is able to reproduce all levels in 15 N up to 11.5 MeV and is used to characterize a narrow level at 11.236 MeV and to provide a map of single particle strengths. These results confirm the degeneracy of these orbitals and that the 15 N− 15 O nuclei are where the transition between the 2s1 /2 lying below the 1d5 /2 to lying above it, takes place. The 1d3 /2 single particle strength is estimated to be centered around 14 MeV in these nuclei.

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Separation Between $d_{5/2}$ and $s_{1/2}$ Neutron Single Particle Strength in $^{15}$N

Mertin¹,

Caussyn²,

Crisp³

et al. 2014

Acta Phys. Pol. B

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The separation between single particle levels in nuclei plays the dominant role in determining the location of the neutron drip line. The separation also provides a test of current crossed shell model interactions if the experimental data is such that multiple shells are involved. The present work uses the 14 N(d, p) 15 N reaction to extract the 2s 1/2 , and 1d 5/2 total neutron single particle strengths and then compares these results with a shell model calculation using a p-sd crossed shell interaction to identify the J π of all levels in 15 N up to 12.8 MeV in excitation.

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Population of Levels in $^{15}$O up to 15 MeV in Excitation by the $^{14}$N($^3$He,$d$) Reaction

Mertin¹,

Baby²,

Caussyn³

et al. 2016

Acta Phys. Pol. B

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C. E. Mertin

Single particle strengths and mirror states inN15−O15below 12.0 MeV

Separation Between $d_{5/2}$ and $s_{1/2}$ Neutron Single Particle Strength in $^{15}$N

Population of Levels in $^{15}$O up to 15 MeV in Excitation by the $^{14}$N($^3$He,$d$) Reaction

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