Orbital Period Changes of Recurrent Nova T Pyxidis Demonstrate that Mejecta >> 11.3xMaccreted and Is Not a Type Ia Supernova Progenitor

Abstract

Recurrent nova (RN) T Pyxidis (T Pyx) has a complex history of mass accreting-onto and ejection-from the white dwarf, with a classical nova eruption around 1866 kick-starting a RN-phase with six RN eruptions from 1890--2011. T Pyx is a primary progenitor candidate for Type Ia supernovae (SNIa). This is chiefly a question of whether the mass accreted by the white dwarf (M accreted) is more-or-less than the mass ejected by the nova eruptions (M ejecta) over the entire eruption cycle. Prior attempts to measure M ejecta from the traditional methods have a scatter of >130×, so only a new technique can provide a measure of adequate accuracy and reliability. This new technique is the timing experiment of measuring the orbital period from 1986 to 2025, where the period increased by +50.37.9 parts-per-million across the 2011 eruption. With simple and sure physics, the best estimate for the mass ejected by one RN event is >2400×10-7 M, with an extreme inviolate limit of 354×10-7 M. Over all eruptions in a cycle, Mejecta>17120×10-7 M, with an inviolate limit of Mejecta2144×10-7 M. Over the full eruption cycle, the white dwarf accreted 220×10-7 M. So M ejecta11.3×M accreted, and T Pyx can never become a SNIa. This paper is the seventh in a series proving that each of various popular candidate SNIa progenitors cannot possibly evolve to a supernova; including V445 Pup, U Sco, T CrB, all symbiotic stars, FQ Cir, V1405 Cas, and now T Pyx.