A spectro-polarimetric study of the planet-hosting G dwarf, HD 147513

G. A.J. Hussain, J. D. Alvarado-Gómez, J. Grunhut, J. F. Donati, E. Alecian, M. Oksala, J. Morin, R. Fares, M. Jardine, J. J. Drake, O. Cohen, S. Matt, P. Petit, S. Redfield, F. M. Walter

Research output: Contribution to journalArticlepeer-review

17 Citations (Scopus)

Abstract

The results from a spectro-polarimetric study of the planet-hosting Sun-like star, HD 147513 (G5V), are presented here. Robust detections of Zeeman signatures at all observed epochs indicate a surface magnetic field, with longitudinal magnetic field strengths varying between 1.0-3.2 G. Radial velocity variations from night to night modulate on a similar timescale to the longitudinal magnetic field measurements. These variations are therefore likely due to the rotational modulation of stellar active regions rather than the much longer timescale of the planetary orbit (Porb = 528 d). Both the longitudinal magnetic field measurements and radial velocity variations are consistent with a rotation period of 10 ± 2 days, which are also consistent with the measured chromospheric activity level of the star (′log R′HK = -4.64). Together, these quantities indicate a low inclination angle, i ∼ 18°. We present preliminary magnetic field maps of the star based on the above period and find a simple poloidal large-scale field. Chemical analyses of the star have revealed that it is likely to have undergone a barium-enrichment phase in its evolution because of a higher mass companion. Despite this, our study reveals that the star has a fairly typical activity level for its rotation period and spectral type. Future studies will enable us to explore the long-term evolution of the field, as well as to measure the stellar rotation period, with greater accuracy.

Original languageEnglish
Article numberA77
JournalAstronomy and Astrophysics
Volume585
DOIs
Publication statusPublished - Jan 1 2016
Externally publishedYes

Keywords

  • Stars: activity
  • Stars: individual: HD 147513
  • Stars: magnetic field
  • Stars: solar-type
  • Techniques: polarimetric
  • Techniques: radial velocities

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science

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