Search for 22Na in novae supported by a novel method for measuring femtosecond nuclear lifetimes

Abstract

Classical novae are thermonuclear explosions in stellar binary systems, and important sources of 26Al and 22Na. While gamma rays from the decay of the former radioisotope have been observed throughout the Galaxy, 22Na remains untraceable. The half-life of 22Na (2.6 yr) would allow the observation of its 1.275 MeV gamma-ray line from a cosmic source. However, the prediction of such an observation requires good knowledge of the nuclear reactions involved in the production and destruction of this nucleus. The 22Na(p,γ)23Mg reaction remains the only source of large uncertainty about the amount of 22Na ejected. Its rate is dominated by a single resonance on the short-lived state at 7785.0(7) keV in 23Mg. In the present work, a combined analysis of particle-particle correlations and velocity-difference profiles is proposed to measure femtosecond nuclear lifetimes. The application of this novel method to the study of the 23Mg states, combining magnetic and highly-segmented tracking gamma-ray spectrometers, places strong limits on the amount of 22Na produced in novae, explains its non-observation to date in gamma rays (flux < 2.5x10-4 ph/(cm2s)), and constrains its detectability with future space-borne observatories.

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