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Heartbeat stars are pulsating variable binary star systems in eccentric orbits with vibrations caused by tidal forces. The name "heartbeat" comes from the similarity of the light curve of the star with what a heartbeat looks like through an electrocardiogram if their brightness was mapped over time.[1][2] Many heartbeat stars have been discovered with the Kepler Space Telescope.[1]

Artist's conception of two heartbeat stars and a companion star. (NASA/JPL-Caltech)
Artist's conception of two heartbeat stars and a companion star. (NASA/JPL-Caltech)

Orbital information


Heartbeat stars are binary star systems where each star travels in a highly elliptical orbit around the common mass center, and the distance between the two stars varies drastically as they orbit each other.[1] Heartbeat stars can get as close as a few stellar radii to each other and as far as 100 times that distance during one orbit.[1][2] As the star with the more elliptical orbit swings closer to its companion, gravity will stretch the star into a non-spherical shape, changing its apparent light output.[3] At their closest point in orbit, the tidal forces cause the shape of the heartbeat stars to fluctuate rapidly.[2] When the stars reach the point of their closest encounter, the mutual gravitational pull between the two stars will cause them to become slightly ellipsoidal in shape, which is one of the reasons for their observed brightness being so variable.[1]


Discoveries


Heartbeat stars were studied for the first time on the basis of OGLE project observations.[4] The Kepler Space Telescope with its long monitoring of the brightness off hundreds of thousands of stars enabled the discovery of many heartbeat stars. One of the first binary systems discovered to show the elliptical orbits, KOI-54, has been shown to increase in brightness every 41.8 days.[2] A subsequent study in 2012 characterized 17 additional objects from the Kepler data and united them as a class of binary stars.[5][1][2]

A study which measured the rotation rate of star spots on the surface of heartbeat stars showed that most heartbeat stars rotate slower than expected.[6] A study which measured the orbits of 19 heartbeat star systems, found that surveyed heartbeat stars tend to be both bigger and hotter than the Sun.[7]

The star HD 74423, discovered using NASA's Transiting Exoplanet Survey Satellite, was found to be unusually teardrop-shaped, which causes the star to pulsate only on one side, the first known heartbeat star to do so.[8][9]


References


  1. Landau, Elizabeth (22 October 2016). "'Heartbeat Stars' Unlocked in New Study". NASA. Retrieved 3 January 2019. As cited in "'Heartbeat stars' unlocked in new study". Phys.org. 24 October 2016. Retrieved 4 January 2019.
  2. Brabaw, Kasandra (23 November 2016). "19 'Heartbeat' Stars Mapped — Most Ever in Single Study". Space.com. Retrieved 29 February 2020.
  3. "Binary stars with strange orbits have been found by the Kepler space telescope". SETI.org. 24 October 2016. Retrieved 3 January 2019.
  4. I. Soszyński, A. Udalski, M. Kubiak, M. K. Szymański, G. Pietrzyński, K. Żebruń, O. Szewczyk, Ł. Wyrzykowski, W. A. Dziembowski (December 2004). "The Optical Gravitational Lensing Experiment. Ellipsoidal Variability of Red Giants in the Large Magellanic Cloud" (PDF). Acta Astronomica. 54: 347. arXiv:astro-ph/0412505. Bibcode:2004AcA....54..347S.{{cite journal}}: CS1 maint: date and year (link) CS1 maint: uses authors parameter (link)
  5. S.E.Thompson, M. Everett, F. Mullally, T. Barclay, S. B. Howell, M. Still t al. (July 2012). "A Class of Eccentric Binaries with Dynamic Tidal Distortions Discovered with Kepler". Astrophysical Journal. 753 (1): 86. arXiv:1203.6115. Bibcode:2012ApJ...753...86T. doi:10.1088/0004-637X/753/1/86. S2CID 119203028.{{cite journal}}: CS1 maint: date and year (link) CS1 maint: uses authors parameter (link)
  6. M. Zimmerman, S. E. Thompson, F. Mullally, J. Fuller, K. Hambleton, A. Shiporer (September 2017). "The Pseudosynchronization of Binary Stars Undergoing Strong Tidal Interactions". Astrophysical Journal. 846 (2): 147. arXiv:1706.05434. Bibcode:2017ApJ...846..147Z. doi:10.3847/1538-4357/aa85e3. S2CID 5607901.{{cite journal}}: CS1 maint: date and year (link) CS1 maint: uses authors parameter (link)
  7. Shporer, Avi; Fuller, Jim; Isaacson, Howard; Hambleton, Kelly; Thompson, Susan E.; Prša, Andrej; Kurtz, Donald W.; Howard, Andrew W.; O'Leary, Ryan M. (2016). "Radial Velocity Monitoring of Kepler Heartbeat Stars". The Astrophysical Journal. 829 (1): 34. arXiv:1606.02723. Bibcode:2016ApJ...829...34S. doi:10.3847/0004-637X/829/1/34. ISSN 0004-637X. S2CID 9533109.
  8. Strickland, Ashley (9 March 2020). "Unusual tear-drop shaped, half-pulsating star discovered by amateur astronomers". CNN. Retrieved 10 March 2020.
  9. G. Handler, D. W. Kurtz, S. A. Rappaport, H. Saio, J. Fuller, D. Jones, Z. Guo, S. Chowdhury, P. Sowicka, F. Kahraman Aliçavuş, M. Streamer, S. J. Murphy, R. Gagliano, T. L. Jacobs & A. Vanderburg (9 March 2020). "Tidally trapped pulsations in a close binary star system discovered by TESS". Nature Astronomy. 48 (7): 684–689. arXiv:2003.04071. Bibcode:2020NatAs...4..684H. doi:10.1038/s41550-020-1035-1. S2CID 212634328. Retrieved 10 March 2020.{{cite journal}}: CS1 maint: uses authors parameter (link)

Further reading



На других языках

[de] Heartbeat Star

Ein Heartbeat Star (deutsch Herzschlagstern) ist ein Pulsationsveränderlicher Stern, dessen Schwingungen über Gezeitenkräfte angeregt werden. Der Name Heartbeat kommt von einer Ähnlichkeit der Lichtkurve des veränderlichen Sterns mit dem Verlauf des Herzschlags in einem Elektrokardiogramm. Viele bekannte Heartbeat Stars wurden mit dem Kepler-Teleskop entdeckt.
- [en] Heartbeat star


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