Cataclysmic Variables in Triples: Formation Models and New Discoveries

TL;DR

This study investigates the role of triple star systems in the formation of cataclysmic variables, revealing that a significant fraction form through mechanisms involving triples, with some forming without common envelope evolution.

Contribution

It introduces a new perspective on CV formation by analyzing triples, showing that many CVs originate from triple systems and some form via the eccentric Kozai-Lidov mechanism without common envelope evolution.

Findings

At least 10% of CVs host wide tertiary companions.

20% of CVs in triples form without common envelope evolution.

Observed Gaia CV triples have wider separations than typical wide binaries.

Abstract

The formation of cataclysmic variables (CVs) has long been modeled as a product of common envelope evolution (CEE) in isolated binaries. However, a significant fraction of intermediate-mass stars -- the progenitors of the white dwarfs (WDs) in CVs -- are in triples. We therefore investigate the importance of triple star dynamics in CV formation. Using Gaia astrometry and existing CV catalogs, we construct a sample of $\sim50$ CVs in hierarchical triples within 1 kpc of the Sun, containing main-sequence (MS) and WD tertiaries at separations of 100 - 30,000 au. We infer that at least 10% of CVs host wide tertiaries. To interpret this discovery, we evolve a population of 2000 triples using detailed three-body simulations, 47 of which become CVs. We predict that 20% of CVs in triples form without ever experiencing CEE, where the WD and donor are brought together by the eccentric Kozai-Lidov (EKL) mechanism after the formation of the WD. These systems favor larger donor stars and longer birth orbital periods (8-20 hrs) than typical CVs. Among systems that do undergo CEE, about half would not have interacted without the presence of the tertiary. Triple formation channels both with and without CEE require initially wide inner orbits ($\gtrsim 1$ au), which in turn require larger tertiary separations to be stable. Consistent with this prediction, we find that the observed Gaia CV triples have wider separations on average than normal wide binaries selected in the same way. Our work underscores the importance of triples in shaping interacting binary populations including CVs, ultracompact binaries, and low-mass X-ray binaries.