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Study of the Isomeric State in $^{16}$N Using the $^{16}$N$^{g,m}$($d$,$^3$He) Reaction

The isomeric state of $^{16}$N was studied using the $^{16}$N$^{g,m}$($d$,$^3$He)~proton-removal reactions at \mbox{11.8~MeV/$u$} in inverse kinematics. The $^{16}$N beam, of which 24% was in the isomeric state, was produced using the ATLAS in-fight facility and delivered to the HELIOS spectrometer, which was used to analyze the $^{3}$He ions from the ($d$,$^{3}$He) reactions. The simultaneous measurement of reactions on both the ground and isomeric states, reduced the systematic uncertainties from the experiment and in the analysis. A direct and reliable comparison of the relative spectroscopic factors was made based on a Distorted-Wave Born Approximation approach. The experimental results suggest that the isomeric state of $^{16}$N is an excited neutron-halo state. The results can be understood through calculations using a Woods-Saxon potential model, which captures the effects of weak-binding.

preprint2022arXivOpen access
T. L. TangC. R. HoffmanB. P. KayI. A. TolstukhinS. Almaraz-CalderonB. W. AsherM. L. AvilaY. AyyadK. W. BrownD. BazinJ. ChenK. A. ChippsP. A. CoppM. HallH. JayatissaH. J. OngD. Santiago-GonzalezD. K. SharpJ. SongS. StolzeG. L. WilsonJ. Wu
nucl-exnucl-th
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T. L. TangC. R. HoffmanB. P. KayI. A. TolstukhinS. Almaraz-CalderonB. W. AsherM. L. AvilaY. AyyadK. W. BrownD. BazinJ. ChenK. A. ChippsP. A. CoppM. HallH. JayatissaH. J. OngD. Santiago-GonzalezD. K. SharpJ. SongS. StolzeG. L. WilsonJ. Wu

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Study of the Isomeric State in $^{16}$N Using the $^{16}$N$^{g,m}$($d$,$^3$He) Reaction | BZPEER | BZPEER