The Red Rectangle: Its Shaping Mechanism and its Source of Ultraviolet Photons

TL;DR

This study uses seven years of spectroscopic data to identify the secondary star in the Red Rectangle nebula as a main sequence star with an accretion disk driving bipolar outflows and ultraviolet emission.

Contribution

It reveals the secondary as a main sequence star with an accretion disk, clarifying the source of ultraviolet photons and the outflow mechanism in the Red Rectangle.

Findings

Secondary star is a main sequence star (~0.94 M_sun).

The bipolar outflow is driven by the secondary star.

Ultraviolet emission originates from an accretion disk around the secondary.

Abstract

The proto-planetary Red Rectangle nebula is powered by HD 44179, a spectroscopic binary (P = 318 d), in which a luminous post-AGB component is the primary source of both luminosity and current mass loss. Here, we present the results of a seven-year, eight-orbit spectroscopic monitoring program of HD 44179, designed to uncover new information about the source of the Lyman/far-ultraviolet continuum in the system as well as the driving mechanism for the bipolar outflow producing the current nebula. Our observations of the H-alpha line profile around the orbital phase of superior conjunction reveal the secondary component to be the origin of the fast (max. v~560$ km s$^{-1}$) bipolar outflow in the Red Rectangle. The variation of total H-alpha flux from the central H II region with orbital phase also identifies the secondary or its surroundings as the source of the far-ultraviolet ionizing radiation in the system. The estimated mass of the secondary (~0.94 M$\sun$) and the speed of the outflow suggest that this component is a main sequence star and not a white dwarf, as previously suggested. We identify the source of the Lyman/far-ultraviolet continuum in the system as the hot, inner region (T$_{max} \ge 17,000$ K) of an accretion disk surrounding the secondary, fed by Roche lobe overflow from the post-AGB primary at a rate of about $2 - 5\times10^{-5}$ M$\sun$ yr$^{-1}$. The total luminosity of the accretion disk around the secondary is estimated to be at least 300 L$\sun$, about 5% of the luminosity of the entire system. (abridged)