Evidence for the White Dwarf Nature of Mira B

TL;DR

This study provides strong evidence that Mira B is a white dwarf, based on optical brightness variations, UV and optical luminosities, and accretion characteristics, clarifying its nature and implications for nova activity and jet formation.

Contribution

The paper conclusively identifies Mira B as a white dwarf using optical variability analysis, linking accretion properties to its evolutionary state and jet phenomena.

Findings

Mira B exhibits optical variability consistent with accreting white dwarfs.

The accretion rate onto Mira B is about 1e-10 solar masses per year.

Mira B's properties suggest it can produce nova explosions and jet activity.

Abstract

The nature of the accreting companion to Mira --- the prototypical pulsating asymptotic giant branch star --- has been a matter of debate for more than 25 years. Here we use a quantitative analysis of the rapid optical brightness variations from this companion, Mira B, which we observed with the Nickel telescope at Lick Observatory, to show that it is a white dwarf (WD). The amplitude of aperiodic optical variations on time scales of minutes to tens of minutes (approximately 0.2 mag) is consistent with that of accreting WDs in cataclysmic variables on these same time scales. It is significantly greater than that expected from an accreting main-sequence star. With Mira B identified as a WD, its ultraviolet (UV) and optical luminosities, along with constraints on the WD effective temperature from the UV, indicate that it accretes at ~1e-10 solar masses per year. We do not find any evidence that the accretion rate is higher than predicted by Bondi-Hoyle theory. The accretion rate is high enough, however, to explain the weak X-ray emission, since the accretion-disk boundary layer around a low-mass WD accreting at this rate is likely to be optically thick and therefore to emit primarily in the far or extreme UV. Furthermore, the finding that Mira B is a WD means that it has experienced, and will continue to experience nova explosions, roughly every million years. It also highlights the similarity between Mira AB and other jet-producing symbiotic binaries such as R Aquarii, CH Cygni, and MWC 560, and therefore raises the possibility that Mira B launched the recently discovered bipolar streams from this system.