Faint Cataclysmic Variables in Quiescence: Globular Cluster and Field Surveys

Abstract

Current evolutionary models imply that most Cataclysmic Variables (CVs) have Porb<2 hours and are Dwarf Nova (DN) systems that are quiescent most of the time. Observations of nearby quiescent DN find that the UV spectrum is dominated by the hot white dwarf (WD), indicating that it provides a significant fraction of the optical light in addition to the quiescent disk and main sequence companion. Hence, identifying a faint, quiescent CV in either the field or a globular cluster (GC) from broadband colors depends on our ability to predict the WD contribution in quiescence. We are undertaking a theoretical study of the compressional heating of WDs, extending down to very low time averaged accretion rates, <Mdot>~10-11Msun/yr, which allows us to self-consistently find the Teff of the WD. We demonstrate here that most of the compressional heating occurs in the freshly accreted envelope and that the WD core temperature reaches a fixed value on a timescale less than typical evolutionary times. Since nuclear burning is unstable at these <Mdot>'s, we have incorporated the recurrent heating and cooling of the WD core throughout the classical novae limit cycle in order to find the Teff-<Mdot> relations. Comparing to observations of field DN confirms the <Mdot>-Porb relation of disrupted magnetic braking. We also predict broad-band colors of a quiescent CV as a function of <Mdot> and companion mass and show that this leads to the identification of what may be many CVs in deep HST images of GCs.

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