The bright subdwarf-O star (sdO), HD 49798, is in a 1.55 day orbit with a
compact companion that is spinning at 13.2 seconds. Using the measurements of
the effective temperature (Teff), surface gravity (logg), and
surface abundances of the sdO, we construct models to study the evolution of
this binary system using Modules for Experiments in Stellar Astrophysics
(MESA). Previous studies of the compact companion have disagreed on
whether it is a white dwarf (WD) or a neutron star (NS). From the published
measurements of the companion's spin and spin-up rate, we agree with Mereghetti
and collaborators that a NS companion is more likely. However, since there
remains the possibility of a WD companion, we use our constructed
MESA models to run simulations with both WD and NS companions that
help us constrain the past and future evolution of this system. If it presently
contains a NS, the immediate mass transfer evolution upon Roche lobe (RL)
filling will lead to mass transfer rates comparable to that implied in
ultraluminous X-ray sources (ULXs). Depending on the rate of angular momentum
extraction via a wind, the fate of this system is either a wide (Porb≈3 day) intermediate mass binary pulsar (IMPB) with a relatively
rapidly spinning NS (≈0.3 s) and a high mass WD (≈0.9M⊙), or a solitary millisecond pulsar (MSP).Comment: 6 pages, 4 figure