<p>Hierarchical multiple stellar systems with short outer periods comprise an important subgroup of multiple star systems. In this paper we present the discovery and spectro-photodynamical analysis of the most compact known 3+1 quadruple stellar system, TIC 120362137. Through investigations of the observations made with the TESS satellite and ground-based follow up measurements, we find that the system consists of an eclipsing binary with a few-day-period that in turn eclipses, and is eclipsed by, a third star on a <i>P</i><sub>mid</sub>&#xa0;=&#xa0;51.3 d orbit. This inner subsystem, which contains three stars that are more massive and hotter than the Sun, is more spatially compact than Mercury’s orbit around our Sun, and is orbited by a fourth Sun-like star with a period <i>P</i><sub>out</sub>&#xa0;=&#xa0;1046 d. We detect the spectral lines of all four stars, making this system the most thoroughly studied 3+1 type quadruple stellar system. The future evolution of TIC 120362137 is also modeled, and we conclude that this entire system will likely end up as a pair of white dwarfs.</p>

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Discovery of the most compact 3+1-type quadruple star system TIC 120362137

  • Tamás Borkovits,
  • Saul A. Rappaport,
  • Hai-Liang Chen,
  • Guillermo Torres,
  • Tibor Mitnyan,
  • Veselin B. Kostov,
  • Brian P. Powell,
  • Theo Pribulla,
  • Petr Zasche,
  • Imre B. Bíró,
  • István Csányi,
  • Donát R. Czavalinga,
  • Zoltán Dencs,
  • Zoltán Garai,
  • Jakub Kolář,
  • Pavel Cagaš,
  • Zbyněk Henzl,
  • Tom Kaye,
  • Hana Kučáková,
  • Martin Mašek,
  • Robert Uhlař

摘要

Hierarchical multiple stellar systems with short outer periods comprise an important subgroup of multiple star systems. In this paper we present the discovery and spectro-photodynamical analysis of the most compact known 3+1 quadruple stellar system, TIC 120362137. Through investigations of the observations made with the TESS satellite and ground-based follow up measurements, we find that the system consists of an eclipsing binary with a few-day-period that in turn eclipses, and is eclipsed by, a third star on a Pmid = 51.3 d orbit. This inner subsystem, which contains three stars that are more massive and hotter than the Sun, is more spatially compact than Mercury’s orbit around our Sun, and is orbited by a fourth Sun-like star with a period Pout = 1046 d. We detect the spectral lines of all four stars, making this system the most thoroughly studied 3+1 type quadruple stellar system. The future evolution of TIC 120362137 is also modeled, and we conclude that this entire system will likely end up as a pair of white dwarfs.