Indirect Measurement of the 23Na(p,γ)24Mg Direct Capture Reaction Rate via (3He,d) Spectroscopy

Abstract

The cross section of the 23Na(p,γ)24Mg reaction is dominated by direct capture at low energies relevant for stellar burning. Such cross sections can be constrained using spectroscopic factors(C2S) or asymptotic normalization coefficients(ANCs) from transfer reactions. In this work, the 23Na(3He,d)24Mg reaction was measured at Elab=21 MeV to extract spectroscopic factors for 24Mg states with excitation energies in Ex=712~MeV using the Enge split-pole spectrograph at the Triangle Universities Nuclear Laboratory. A new non-resonant astrophysical S factor and the direct capture reaction rate for the 23Na(p,γ) reaction are calculated and presented based on this measurement. The new rate at T<0.04 GK is 43\% smaller than in previous studies. Rigorous treatments of uncertainties are presented using a Bayesian Markov Chain Monte Carlo (MCMC) method. Sources of uncertainties for computing the direct capture cross section are also discussed in detail.