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Error Analysis of the Light Curve Solution of Contact Binaries Based on the W-D Code

Liang Liu

2021Publications of the Astronomical Society of the Pacific20 citationsDOIOpen Access PDF

Abstract

We use the idea of repeat measurement to determine the mean value and error of light curve solution parameters of contact binaries. Our simulation is realized by the Monte Carlo algorithm and Wilson-Devinney code. This method can obtain the systematic and random error simultaneously. Within our 48 models, the systematic errors are smaller than the random errors in most case. According to the numerical calculations, it is found that the relative errors of photometric mass ratios are less than 1% for totally eclipsing contact binaries, while they are generally between 10% and 20% for partly eclipsing ones. The effect of third light on the errors of photometric solution is also investigated. With a third light, these errors are close to 10% for totally eclipsing contact binaries. Specially, it is better to set the third light to zero in flux if that light is very faint (e.g., less than 1% contribution in luminosity), because such faint third light will bring big errors to the light curve solutions.

Topics & Concepts

Light curveError analysisRandom errorSystematic errorObservational errorPhysicsMonte Carlo methodSet (abstract data type)Approximation errorOpticsValue (mathematics)Statistical errorStandard deviationError detection and correctionAlgorithmCode (set theory)AstrophysicsError barContact binaryPhotometry (optics)RaySpeed of light (cellular automaton)Flux (metallurgy)Expected valueAccuracy and precisionZero (linguistics)Astronomical Observations and InstrumentationAstronomy and Astrophysical ResearchPulsars and Gravitational Waves Research
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