How Does Heliocentric Julian Day Enhance Eclipsing Binary Analysis?

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Heliocentric Julian Day (HJD) is a timekeeping system that corrects for the Earth's position relative to the Sun, which is crucial for analyzing eclipsing binary stars. When observing these stars, the timing of light travel can be affected by the Earth's movement, leading to discrepancies in data collected over time. By using HJD, astronomers can synchronize observations more accurately, reducing timing errors caused by the Earth's orbit. This method enhances the precision of measurements in close-orbiting eclipsing binaries, facilitating better analysis of their characteristics. Overall, utilizing HJD or barycentric Julian Date improves the reliability of astronomical data.
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Hi pf! I am working to better understand eclipsing binaries but to do so I need to understand a heliocentric Julian day; what it is and how it is advantageous for analyzing eclipsing binaries...could someone please explain to me how the Helio JD works and why its beneficial to use!? thanks!
 
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I have. I am still a little bit puzzled by it...
 
In what way?
 
okay so the Heliocentric Julian Date (HJD) is the Julian Date (JD) corrected for differences in the Earth's position with respect to the Sun...but how is this beneficial when studying close orbiting eclipsing binary stars?
 
Say you take a few observations. Then you take a few more a month later. When you try to combine the data, you will find that the timing is off because of the extra distance the light has had to travel now that we are a month further along in our orbit. Using a heliocentric frame for timing, or better yet a baryocentric, would eliminate this timing error.
 

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