Sub-threshold states in 19Ne relevant to 18F(p,α)15O

Abstract

Classical novae result from thermonuclear explosions producing several γ-ray emitters which are prime targets for satellites observing in the MeV range. The early 511 keV gamma-ray emission depends critically on the 18F(p,α)15O reaction rate which, despite many experimental and theoretical efforts, still remains uncertain. One of the main uncertainties in the 18F(p,α)15O reaction rate is the contribution in the Gamow window of interference between sub-threshold 19Ne states and known broad states at higher energies. Therefore the goal of this work is to clarify the existence and the nature of these sub-threshold states. States in the 19Ne compound nucleus were studied at the Tandem-ALTO facility using the 19F(3He,t)19Ne charge exchange reaction. Tritons were detected with an Enge Split-pole spectrometer while decaying protons or α-particles from unbound 19Ne states were collected, in coincidence, with a double-sided silicon strip detector array. Angular correlations were extracted and constraints on the spin and parity of decaying states established. The coincidence yield at Ex = 6.29 MeV was observed to be high spin, supporting the conclusion that it is indeed a doublet consisting of high spin and low spin components. Evidence for a broad, low spin state was observed around 6 MeV. Branching ratios were extracted for several states above the proton threshold and were found to be consistent with the literature. R-matrix calculations show the relative contribution of sub-threshold states to the astrophysically important energy region above the proton threshold. The levels schemes of 19Ne and 19F are still not sufficiently well known and further studies of the analogue assignments are needed. The tentative broad state at 6 MeV may only play a role if the reduced proton width is large.