arXiv : Nuclear Level Density and $\gamma$-ray Strength Function of $^{67}\mathrm{Ni}$ and the impact on the i-process

Ingeberg, V.W.; Gaffney, L.P.; Goriely, S.; Zeiser, F.; Cederkäll, J.; Choplin, A.; Bello Garrote, F.; Henrich, C.; Ojala, J.; Majola, S.N.T.; Warr, N.; Kheswa, B.V.; Pakarinen, J.; Siem, S.; Siess, L.; Wiedeking, M.; Görgen, A.; Bleuel, D.L.; Jones, P.; Arnswald, K.; De Witte, H.; Kröll, T.; Malatji, K.L.; Illana, A.; Seidlitz, M.; Christoffersen, T.L.; von Schmid, M.; Rainovski, G.; Cox, D.M.; Abrahams, K.J.; Tveten, G.M.; Reiter, P.

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Preprint
Report number	arXiv:2307.07153
Title	Nuclear Level Density and $\gamma$-ray Strength Function of $^{67}\mathrm{Ni}$ and the impact on the i-process
Author(s)	Ingeberg, V.W. (Oslo U.) ; Siem, S. (Oslo U.) ; Wiedeking, M. (LBNL, NSD ; iThemba LABS ; U. Witwatersrand, Johannesburg, Sch. Phys.) ; Choplin, A. (Brussels U., IAA) ; Goriely, S. (Brussels U., IAA) ; Siess, L. (Brussels U., IAA) ; Abrahams, K.J. (Western Cape U.) ; Arnswald, K. (Koln, Fachhochschule) ; Bello Garrote, F. (Oslo U.) ; Bleuel, D.L. (LLNL, Livermore) ; Cederkäll, J. (Lund U. ; CERN) ; Christoffersen, T.L. (Oslo U.) ; Cox, D.M. (Jyvaskyla U. ; Helsinki Inst. of Phys.) ; De Witte, H. (KU Leuven, Dept. Phys. Astron.) ; Gaffney, L.P. (CERN ; Liverpool U.) ; Görgen, A. (Oslo U.) ; Henrich, C. (Darmstadt, Tech. Hochsch.) ; Illana, A. (KU Leuven, Dept. Phys. Astron. ; UCM, Somosaguas) ; Jones, P. (iThemba LABS) ; Kheswa, B.V. (Oslo U.) ; Kröll, T. (Darmstadt, Tech. Hochsch.) ; Majola, S.N.T. (iThemba LABS ; Johannesburg U.) ; Malatji, K.L. (iThemba LABS ; Stellenbosch U.) ; Ojala, J. (Jyvaskyla U. ; Helsinki Inst. of Phys. ; Liverpool U.) ; Pakarinen, J. (Jyvaskyla U. ; Helsinki Inst. of Phys.) ; Rainovski, G. (Sofiya U.) ; Reiter, P. (Koln, Fachhochschule) ; von Schmid, M. (Darmstadt, Tech. Hochsch.) ; Seidlitz, M. (Koln, Fachhochschule) ; Tveten, G.M. (Oslo U.) ; Warr, N. (Koln, Fachhochschule) ; Zeiser, F. (Oslo U.)
Imprint	2023-07-14
Number of pages	16
Note	Submitted to Phys. Rev. C
Subject category	nucl-th ; Nuclear Physics - Theory ; astro-ph.SR ; Astrophysics and Astronomy ; nucl-ex ; Nuclear Physics - Experiment
Accelerator/Facility, Experiment	CERN ISOLDE
Abstract	Proton-$\gamma$ coincidences from $(\mathrm{d},\mathrm{p})$ reactions between a $^{66}\mathrm{Ni}$ beam and a deuterated polyethylene target have been analyzed with the inverse-Oslo method to find the nuclear level density (NLD) and $\gamma$-ray strength function ($\gamma$SF) of $^{67}\mathrm{Ni}$. The $^{66}\mathrm{Ni}(n,\gamma)$ capture cross section has been calculated using the Hauser-Feshbach model in TALYS using the measured NLD and $\gamma$SF as constraints. The results confirm that the $^{66}\mathrm{Ni}(n,\gamma)$ reaction acts as a bottleneck when relying on one-zone nucleosynthesis calculations. However, the impact of this reaction is strongly dampened in multi-zone models of low-metallicity AGB stars experiencing i-process nucleosynthesis.
Other source	Inspire
Copyright/License	preprint: (License: CC BY-NC-ND 4.0)

$(a) Unprocessed excitation-$\gamma$ coincidence and (b) unfolded matrices with $80$ keV/bin on both axes. The first-generation matrix (c) was re-binned from $80$ to $250$ keV/bin to reduce fluctuations. The dashed lines in (c) indicate the region for which the NLD and $\gamma$SF are extracted.$ $The measured nuclear level density of $^{67}\mathrm{Ni}$ is shown by the black circles while the black line shows the NLD from large scale SM calculations \cite{Midtbo2018}. The black dash-dotted line shows the NLD from known discrete levels \cite{JUNDE2005159,PhysRevC.91.054321}. The red, blue and green lines show the average for the CT, BSFG and HFB models, respectively. The red shaded area indicates the $\pm1\sigma$, $\pm2\sigma$ and $\pm3\sigma$ credibility intervals. The black open diamond represents the extrapolated NLD at the neutron separation energy. The gray shaded areas indicate the fitting regions to the discrete levels (lower energy) and to the extrapolated models normalized to the measured NLD (higher energy).$

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