The Astronomical Journal (Jan 2024)

Haro 5-2: A New Pre-main-sequence Quadruple Stellar System

  • Bo Reipurth,
  • C. Briceño,
  • T. R. Geballe,
  • C. Baranec,
  • S. Mikkola,
  • A. M. Cody,
  • M. S. Connelley,
  • C. Flores,
  • B. A. Skiff,
  • J. D. Armstrong,
  • N. M. Law,
  • R. Riddle

DOI
https://doi.org/10.3847/1538-3881/ad5956
Journal volume & issue
Vol. 168, no. 4
p. 143

Abstract

Read online

We have discovered that the H α emission-line star Haro 5-2, located in the 3–6 Myr old Ori OB1b association, is a young quadruple system. The system has a 2+2 configuration, with an outer separation of 2.″6 and with resolved subarcsecond inner binary components. The brightest component, Aa, dominates the A-binary; it is a weak-line T Tauri star with spectral type M2.5±1. The two stars of the B component are equally bright at J , but the Bb star is much redder. Optical spectroscopy of the combined B pair indicates a rich emission-line spectrum with a M3±1 spectral type. The spectrum is highly variable and switches back and forth between a classical and a weak-line T Tauri star. In the near-IR, the spectrum shows Paschen β and Brackett γ in emission, indicative of active accretion. A significant mid-IR excess reveals the presence of circumstellar or circumbinary material in the system. Most multiple systems are likely formed during the protostellar phase, involving flybys of neighboring stars followed by an inspiraling phase driven by accretion from circumbinary material and leading to compact subsystems. However, Haro 5-2 stands out among young 2+2 quadruples, as the two inner binaries are unusually wide relative to the separation of the A and B pair, allowing future studies of the individual components. Assuming the components are coeval, the system could potentially allow stringent tests of pre-main-sequence evolutionary models.

Keywords