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Binary star detectability in Kepler data from phase modulation of different types of oscillations

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arxiv 1605.03578 v1 pith:XRP32NEB submitted 2016-05-11 astro-ph.SR

Binary star detectability in Kepler data from phase modulation of different types of oscillations

classification astro-ph.SR
keywords starsbinarytimebeendatadetectabilitykeplerlight
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Detecting binary stars in photometric time series is traditionally done by measuring eclipses. This requires the orbital plane to be aligned with the observer. A new method without that requirement uses stellar oscillations to measure delays in the light arrival time and has been successfully applied to $\delta$ Scuti stars. However, application to other types of stars has not been explored. To investigate this we simulated light curves with a range of input parameters. We find a correlation between the signal-to-noise of the pulsation modes and the time delay required to detect binary motion. The detectability of the binarity in the simulations and in real $Kepler$ data shows strong agreement, hence, we describe the factors that have prevented this method from discovering binary companions to stars belonging to various classes of pulsating stars.

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