Possible evidence for the 478 keV emission line from 7Be decay during the outburst phases of V1369 Cen

Abstract

After decades of uncertainty about the origin of lithium, recent evidence suggests Galactic novae as its main astrophysical source. In this work, we present possible evidence for the first detection of the 7Be line at 478 keV, observed with the INTEGRAL satellite. The emission is temporally and spatially coincident with the outburst of the bright nova V1369 Cen, and line significance ranges from 2.5σ to 1.9σ, depending on the detection methodology. A bootstrap analysis, assuming a fixed FWHM of 8 keV, provides a flux of (4.9 2.0) × 10-4 ph/cm2/s centered at 479.0 2.5 keV, with a 2.5σ significant excess. This flux implies a total 7Be mass of M7Be = (1.2+2.0-0.6) × 10-8 M at the distance determined using several indicators including the Gaia satellite. For a nova ejected mass estimated from radio observations, this result implies a 7Be=Li yield corresponding to A(Li) = 7.1+0.7-0.3. This value is comparable to those measured in a dozen novae through optical observations. Crucially, we confirm optically derived 7Li yields and demonstrate the groundbreaking potential of using gamma-ray data to measure Li abundances.

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