The orbits of subdwarf B + main-sequence binaries. I: The sdB+G0 system PG 1104+243

TL;DR

This study characterizes the long-period sdB+G0 binary PG 1104+243, providing detailed physical parameters of both stars, confirming formation via stable Roche-lobe overflow, and demonstrating the use of gravitational redshift for surface gravity measurement.

Contribution

First detailed physical parameter determination of a long-period sdB+MS binary, confirming formation through stable Roche-lobe overflow and utilizing gravitational redshift for surface gravity measurement.

Findings

Orbital period of 753 days and mass ratio of 0.637.

sdB star has Teff = 33500 K and logg = 5.84.

G-type companion has Teff = 5930 K and logg = 4.29.

Abstract

The predicted orbital period histogram of an sdB population is bimodal with a peak at short (< 10 days) and long (> 250 days) periods. Observationally, there are many short-period sdB systems known, but only very few long-period sdB binaries are identified. As these predictions are based on poorly understood binary interaction processes, it is of prime importance to confront the predictions to observational data. In this contribution we aim to determine the absolute dimensions of the long-period sdB+MS binary system PG1104+243. High-resolution spectroscopy time-series were obtained with HERMES at the Mercator telescope at La Palma, and analyzed to obtain radial velocities of both components. Photometry from the literature was used to construct the spectral energy distribution (SED) of the binary. Atmosphere models were used to fit this SED and determine the surface gravity and temperature of both components. The gravitational redshift provided an independent confirmation of the surface gravity of the sdB component. An orbital period of 753 +- 3 d and a mass ratio of q = 0.637 +- 0.015 were found from the RV-curves. The sdB component has an effective temperature of Teff = 33500 +- 1200 K and a surface gravity of logg = 5.84 +- 0.08 dex, while the cool companion is found to be a G-type star with Teff = 5930 +- 160 K and logg = 4.29 +- 0.05 dex. Assuming a canonical mass of Msdb = 0.47 Msun, the MS component has a mass of 0.74 +- 0.07 Msun, and its Teff corresponds to what is expected for a terminal age main-sequence star with sub-solar metalicity. PG1104+243 is the first long-period sdB binary in which accurate physical parameters of both components could be determined, and the first sdB binary in which the gravitational redshift is measured. Furthermore, PG1104+243 is the first sdB+MS system that shows consistent evidence for being formed through stable Roche-lobe overflow.