Planetary companions around the metal-poor star HIP 11952

TL;DR

This study reports the discovery of two planets orbiting the extremely metal-poor star HIP 11952 through radial velocity measurements, challenging existing theories of planet formation around such stars.

Contribution

First detection of planetary companions around a star with [Fe/H] < -1.0, providing new insights into planet formation in metal-poor environments.

Findings

Detected two planets with periods of 6.95 and 290 days.

Minimum planetary masses are 0.78 and 2.93 Jupiter masses.

Confirmed planetary origin of RV variations despite stellar activity.

Abstract

Aims. We carried out a radial-velocity survey to search for planets around metal-poor stars. In this paper we report the discovery of two planets around HIP 11952, a metal-poor star with [Fe/H]= -1.9 that belongs to our target sample. Methods. Radial velocity variations of HIP 11952 were monitored systematically with FEROS at the 2.2 m telescope located at the ESO La Silla observatory from August 2009 until January 2011. We used a cross-correlation technique to measure the stellar radial velocities (RV). Results. We detected a long-period RV variation of 290 d and a short-period one of 6.95 d. The spectroscopic analysis of the stellar activity reveals a stellar rotation period of 4.8 d. The Hipparcos photometry data shows intra-day variabilities, which give evidence for stellar pulsations. Based on our analysis, the observed RV variations are most likely caused by the presence of unseen planetary companions. Assuming a primary mass of 0.83 M\odot, we computed minimum planetary masses of 0.78 MJup for the inner and 2.93 MJup for the outer planet. The semi-major axes are a1 = 0.07 AU and a2 = 0.81 AU, respectively. Conclusions. HIP 11952 is one of very few stars with [Fe/H]< -1.0 which have planetary companions. This discovery is important to understand planet formation around metal-poor stars