Posted by BeauHD from the timing-is-everything dept.
Ars Technica’s John Timmer reports: [T]he International Astronomical Union has a resolution that calls for a “Lunar Celestial Reference System” and “Lunar Coordinate Time” to handle things there. On Monday, two researchers at the National institute of Standards and Technology, Neil Ashby and Bijunath Patla, did the math to show how this might work. […] Ashby and Patla worked on developing a system where anything can be calculated in reference to the center of mass of the Earth/Moon system. Or, as they put it in the paper, their mathematical system “enables us to compare clock rates on the Moon and cislunar Lagrange points with respect to clocks on Earth by using a metric appropriate for a locally freely falling frame such as the center of mass of the Earth-Moon system in the Sun’s gravitational field.” What does this look like? Well, a lot of deriving equations. The paper’s body has 55 of them, and there are another 67 in the appendices. So, a lot of the paper ends up looking like this.
Things get complicated because there are so many factors to consider. There are tidal effects from the Sun and other planets. Anything on the surface of the Earth or Moon is moving due to rotation; other objects are moving while in orbit. The gravitational influence on time will depend on where an object is located. So, there’s a lot to keep track of. Ashby and Patla don’t have to take everything into account in all circumstances. Some of these factors are so small they’ll only be detectable with an extremely high-precision clock. Others tend to cancel each other out. Still, using their system, they’re able to calculate that an object near the surface of the Moon will pick up an extra 56 microseconds every day, which is a problem in situations where we may be relying on measuring time with nanosecond precision. And the researchers say that their approach, while focused on the Earth/Moon system, is still generalizable. Which means that it should be possible to modify it and create a frame of reference that would work on both Earth and anywhere else in the Solar System. Which, given the pace at which we’ve sent things beyond low-Earth orbit, is probably a healthy amount of future-proofing.
The findings have been published in the Astronomical Journal. A National Institute of Standards and Technology (NIST) press release announcing the work can be found here.
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