# Phase-Resolved Spectroscopy of Gaia14aae: Line Emission From Near the   White Dwarf Surface

**Authors:** M. J. Green, T. R. Marsh, D. Steeghs, E. Breedt, T. Kupfer, P., Rodriguez-Gil, J. van Roestel, R. P. Ashley, L. Wang, E. Cukanovaite, and S., Outmani

arXiv: 1902.01213 · 2019-02-20

## TL;DR

This study uses phase-resolved spectroscopy of Gaia14aae to analyze the white dwarf's motion, accretion disc features, and chemical composition, providing insights into its formation and system parameters.

## Contribution

First detailed phase-resolved optical spectroscopy of Gaia14aae confirming the white dwarf's motion and accretion disc features, with chemical composition analysis supporting a specific formation channel.

## Key findings

- Central spike velocity matches predicted white dwarf motion.
- Doppler maps reveal two accretion disc bright spots.
- No hydrogen detected; nitrogen and oxygen present.

## Abstract

AM CVn binaries are a class of ultracompact, hydrogen-deficient binaries, each consisting of a white dwarf accreting helium-dominated material from a degenerate or semi-degenerate donor star. Of the 56 known systems, only Gaia14aae undergoes complete eclipses of its central white dwarf, allowing the parameters of its stellar components to be tightly constrained. Here, we present phase-resolved optical spectroscopy of Gaia14aae. We use the spectra to test the assumption that the narrow emission feature known as the `central spike' traces the motion of the central white dwarf. We measure a central spike velocity amplitude of $13.8 \pm 3.2$ km/s, which agrees at the 1 $\sigma$ level with the predicted value of $17.6 \pm 1.0$ km/s based on eclipse-derived system parameters. The orbital phase offset of the central spike from its expected position is $4 \pm 15$ $^\circ$, consistent with 0 $^\circ$. Doppler maps of the He I lines in Gaia14aae show two accretion disc bright spots, as seen in many AM CVn systems. The formation mechanism for the second spot remains unclear. We detect no hydrogen in the system, but we estimate a 3 $\sigma$ limit on H$\alpha$ emission with an equivalent width of -1.14 \AA. Our detection of nitrogen and oxygen with no corresponding detection of carbon, in conjunction with evidence from recent studies, mildly favours a formation channel in which Gaia14aae is descended from a cataclysmic variable with a significantly evolved donor.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1902.01213/full.md

## References

57 references — full list in the complete paper: https://tomesphere.com/paper/1902.01213/full.md

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Source: https://tomesphere.com/paper/1902.01213