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General relativistic orbital decay in a seven-minute-orbital-period eclipsing binary system

by Bellm, Eric C. , Bildsten, Lars , Dekany, Richard G. , Masci, Frank J. , Riddle, Reed , Kulkarni, S. R. , Soumagnac, Maayane T. , Kaplan, David L. , Fuller, Jim , Mahabal, Ashish A. , Burdge, Kevin B. , Roestel, Jan van , Smith, Roger M. , Graham, Matthew J. , Kupfer, Thomas , Walters, Richard , Feeney, Michael , Kaye, Stephen , Coughlin, Michael W. , Laher, Russ R. , Shupe, David L. , Prince, Thomas A. , Helou, George , Giomi, Matteo , Szkody, Paula , Duev, Dmitry A.

in 639/33/34/4118 / 639/33/34/4121 / 639/33/34/4123 / 639/33/34/4126 / 639/33/34/867 / Humanities and Social Sciences / Letter / multidisciplinary / Science / Science (multidisciplinary)

2019

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General relativistic orbital decay in a seven-minute-orbital-period eclipsing binary system

in 639/33/34/4118 / 639/33/34/4121 / 639/33/34/4123 / 639/33/34/4126 / 639/33/34/867 / Humanities and Social Sciences / Letter / multidisciplinary / Science / Science (multidisciplinary)

2019

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General relativistic orbital decay in a seven-minute-orbital-period eclipsing binary system

in 639/33/34/4118 / 639/33/34/4121 / 639/33/34/4123 / 639/33/34/4126 / 639/33/34/867 / Humanities and Social Sciences / Letter / multidisciplinary / Science / Science (multidisciplinary)

2019

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Journal Article

General relativistic orbital decay in a seven-minute-orbital-period eclipsing binary system

Bellm, Eric C.,

Bildsten, Lars,

Dekany, Richard G.,

Masci, Frank J.,

Riddle, Reed,

Kulkarni, S. R.,

Soumagnac, Maayane T.,

Kaplan, David L.,

Fuller, Jim,

Mahabal, Ashish A.,

Burdge, Kevin B.,

Roestel, Jan van,

Smith, Roger M.,

Graham, Matthew J.,

Kupfer, Thomas,

Walters, Richard,

Feeney, Michael,

Kaye, Stephen,

Coughlin, Michael W.,

Laher, Russ R.,

Shupe, David L.,

Prince, Thomas A.,

Helou, George,

Giomi, Matteo,

Szkody, Paula,

Duev, Dmitry A.

2019

Overview

General relativity 1 predicts that short-orbital-period binaries emit considerable amounts of gravitational radiation. The upcoming Laser Interferometer Space Antenna 2 (LISA) is expected to detect tens of thousands of such systems 3 but few have been identified 4 , of which only one 5 is eclipsing—the double-white-dwarf binary SDSS J065133.338+284423.37, which has an orbital period of 12.75 minutes. Here we report the discovery of an eclipsing double-white-dwarf binary system, ZTF J153932.16+502738.8, with an orbital period of 6.91 minutes. This system has an orbit so compact that the entire binary could fit within the diameter of the planet Saturn. The system exhibits a deep eclipse, and a double-lined spectroscopic nature. We see rapid orbital decay, consistent with that expected from general relativity. ZTF J153932.16+502738.8 is a strong source of gravitational radiation close to the peak of LISA’s sensitivity, and we expect it to be detected within the first week of LISA observations, once LISA launches in approximately 2034. Observations of an eclipsing double-white-dwarf binary with an orbital period of 6.91 minutes that is decaying as predicted by general relativity are reported; once launched, the Laser Interferometer Space Antenna (LISA) should swiftly detect this binary.

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Nature Publishing Group UK

Subject

/ Humanities and Social Sciences

/ Letter