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arxiv: 2002.03934 · v1 · pith:UD6OOULHnew · submitted 2020-02-10 · ⚛️ nucl-ex · astro-ph.SR· nucl-th

Study of the ²⁵Mg(d,p)²⁶Mg reaction to constrain the ²⁵Al(p,γ)²⁶Si resonant reaction rates in nova burning conditions

classification ⚛️ nucl-ex astro-ph.SRnucl-th
keywords reactiongammaburningrateanalogconditionsnovaresonance
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The rate of the $^{25}$Al($p$,$\gamma$)$^{26}$Si reaction is one of the few key remaining nuclear uncertainties required for predicting the production of the cosmic $\gamma$-ray emitter $^{26}$Al in explosive burning in novae. This reaction rate is dominated by three key resonances ($J^{\pi}=0^{+}$, $1^{+}$ and $3^{+}$) in $^{26}$Si. Only the $3^{+}$ resonance strength has been directly constrained by experiment. A high resolution measurement of the $^{25}$Mg($d$,$p$) reaction was used to determine spectroscopic factors for analog states in the mirror nucleus, $^{26}$Mg. A first spectroscopic factor value is reported for the $0^{+}$ state at 6.256 MeV, and a strict upper limit is set on the value for the $1^{+}$ state at 5.691 MeV, that is incompatible with an earlier ($^{4}$He,$^{3}$He) study. These results are used to estimate proton partial widths, and resonance strengths of analog states in $^{26}$Si contributing to the $^{25}$Al($p$,$\gamma$)$^{26}$Si reaction rate in nova burning conditions.

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