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martyb [soylentnews.org] writes:

Fastest Eclipsing Binary, a Valuable Target for Gravitational Wave Studies [noao.edu]:

Each night, Caltech’s Zwicky Transient Facility (ZTF), a survey that uses the 48-inch telescope at Palomar Observatory, scans the sky for objects that move, blink, or otherwise vary in brightness. Promising candidates are followed up with a new instrument, the Kitt Peak 84-inch Electron Multiplying Demonstrator (KPED), at the Kitt Peak 2.1-meter telescope to identify short period eclipsing binaries. KPED is designed to measure with speed and sensitivity the changing brightness of celestial sources.

This approach has led to the discovery of ZTF J1539+5027 (or J1539 for short), a white dwarf eclipsing binary with the shortest period known to date, a mere 6.91 minutes. The stars orbit so close together that the entire system could fit within the diameter of the planet Saturn.

“As the dimmer star passes in front of the brighter one, it blocks most of the light, resulting in the seven-minute blinking pattern we see in the ZTF data,” explains Caltech graduate student Kevin Burdge, lead author of the paper reporting the discovery, which appears in today’s issue of the journal Nature.

[...]J1539 is a rare gem. It is one of only a few known sources of gravitational waves—ripples in space and time—that will be detected by the future European space mission LISA [esa.int] (Laser Interferometer Space Antenna), which is expected to launch in 2034. LISA, in which NASA plays a role, will be similar to the National Science Foundation’s ground-based LIGO (Laser Interferometer Gravitational-wave Observatory), which made history in 2015 [caltech.edu] by making the first direct detection of gravitational waves from a pair of colliding black holes. LISA will detect gravitational waves from space at lower frequencies. J1539 is well matched to LISA; the 4.8 mHz gravitational wave frequency of J1539 is close to the peak of LISA’s sensitivity.

[...]As remarkable as it is, J1539 was discovered with only a small portion of the data expected from ZTF. It was found in the ZTF team's initial analysis of 10 million sources, whereas the project will eventually study more than a billion stars.

Very roughly speaking, imagine two geostationary satellites on opposite sides of the earth. Orbiting the Earth's center in under 7 minutes. And each satellite having a mass on the order of the mass of the Sun.

Journal Reference:
Burdge et al. General relativistic orbital decay in a seven-minute-orbital-period eclipsing binary system. Nature, 2019 DOI: 10.1038/s41586-019-1403-0 [doi.org]

Here is a video animation [youtube.com] of the eclipsing binaries on YouTube.

Original Submission