Direct Measurement of Astrophysically Important Resonances in 38K(p, γ)39Ca

Abstract

According to sensitivity studies, the 38K( p, γ )39Ca reaction has a significant influence on Ar, K, and Ca production in classical novae. In order to constrain the rate of this reaction, we have performed a direct measurement of the strengths of three candidate = 0 resonances within the Gamow window, at 386 10~keV, 515 10~keV, and 689 10~keV. The experiment was performed in inverse kinematics using a beam of unstable 38K impinged on a windowless H2 target. The 39Ca recoils and prompt γ rays from 38K( p, γ )39Ca reactions were detected in coincidence using a recoil mass separator and a BGO array, respectively. For the 689 keV resonance, we observed a clear recoil-γ coincidence signal and extracted resonance strength and energy values of 120+50-30~(stat.)+20-60~(sys.)~meV and 679+2-1~(stat.) 1~(sys.)~keV, respectively. We also performed a singles analysis, extracting a resonance strength of 120 20~(stat.) 15~(sys.)~meV, consistent with the coincidence result. For the 386 keV and 515 keV resonances, we extract 90\% confidence level upper limits of 2.54 meV and 18.4 meV, respectively. We have established a new recommended 38K(p, γ)39Ca rate based on experimental information, which reduces overall uncertainties near the peak temperatures of nova burning by a factor of 250. Using the rate obtained in this work in model calculations of the hottest oxygen-neon novae reduces overall uncertainties on Ar, K, and Ca synthesis to factors of 15 or less in all cases.