Faint calcium-rich transient from the double-detonation of a 0.6\,M carbon-oxygen white dwarf star

Abstract

We have computed a three-dimensional hydrodynamic simulation of the merger between a massive (0.4\,M) helium white dwarf (He WD) and a low-mass (0.6\,M) carbon-oxygen white dwarf (CO WD). Despite the low mass of the primary, the merger triggers a thermonuclear explosion as a result of a double detonation, producing a faint transient and leaving no remnant behind. This type of event could also take place during common-envelope mergers whenever the companion is a CO WD and the core of the giant star has a sufficiently large He mass. The spectra show strong Ca lines throughout the first few weeks after the explosion. The explosion only yields <0.01\,M of 56Ni, resulting in a low-luminosity SN Ia-like lightcurve that resembles the Ca-rich transients within this broad class of objects, with a peak magnitude of Mbol ≈ -15.7\,mag and a rather slow decline rate of m15bol≈ 1.5\,mag. Both, its lightcurve-shape and spectral appearance, resemble the appearance of Ca-rich transients, suggesting such mergers as a possible progenitor scenario for this class of events.

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