2MASS J03450206+3159341 , the SIMBAD biblio

Context. The circumstellar disk of the Herbig Fe star HD 142527 is host to several remarkable features including a warped inner disk, a 120au-wide annular gap, a prominent dust trap and several spiral arms. A low-mass companion, HD 142527 B, was also found orbiting the primary star at ∼14au.
Aims. This study aims to better characterize this companion, which could help explain its impact on the peculiar geometry of the disk. Method. We observed the source with VLT/SINFONI in H + K band in pupil-tracking mode. Data were post-processed with several algorithms based on angular differential imaging (ADI).
Results. HD 142527 B is conspicuously re-detected in most spectral channels, which enables us to extract the first medium-resolution spectrum of a low-mass companion within 0.1" from its central star. Fitting our spectrum with both template and synthetic spectra suggests that the companion is a young M2.5±1.0 star with an effective temperature of 3500±100K, possibly surrounded with a hot (1700K) circum-secondary environment. Pre-main sequence evolutionary tracks provide a mass estimate of 0.34±0.06M_☉, independent of the presence of a hot environment. However, the estimated stellar radius and age do depend on that assumption; we find a radius of 1.37±0.05R_☉ (resp. 1.96±0.10R_☉) and an age of 1.8_–0.5^+1.2Myr (resp. 0.75±0.25Myr) in the case of the presence (resp. absence) of a hot environment contributing in H+K. Our new values for the mass and radius of the companion yield a mass accretion rate of 4.1-5.8x10^–9M_☉/yr (2-3% that of the primary).
Conclusions. We have constrained the physical properties of HD 142527 B, thereby illustrating the potential for SINFONI+ADI to characterize faint close-in companions. The new spectral type makes HD 142527 B a twin of the well-known TW Hya T Tauri star, and the revision of its mass to higher values further supports its role in shaping the disk.