The magnetic Bp star 36 Lyncis, I. Magnetic and photospheric properties
Abstract
This paper reports the photospheric, magnetic and circumstellar gas characteristics of the magnetic B8p star 36 Lyncis (HD 79158). Using archival data and new polarised and unpolarised high-resolution spectra, we redetermine the basic physical properties, the rotational period and the geometry of the magnetic field, and the photospheric abundances of various elements.Based on magnetic and spectroscopic measurements, we infer an improved rotational period of 3.83475 0.00002 d. We determine a current epoch of the longitudinal magnetic field positive extremum (HJD 2452246.033), and provide constraints on the geometry of the dipole magnetic field (i≥ 56, 3210 G≤ B d≤ 3930 G, β unconstrained). We redetermine the effective temperature and surface gravity using the optical and UV energy distributions, optical photometry and Balmer line profiles (T eff=13300 300 K, g=3.7-4.2), and based on the Hipparcos parallax we redetermine the luminosity, mass, radius and true rotational speed (L=2.54 0.16 L, M=4.0 0.2 M, R=3.4 0.7 R, v eq=45-61.5 ). We measure photospheric abundances for 21 elements using optical and UV spectra, and constrain the presence of vertical stratification of these elements. We perform preliminary Doppler Imaging of the surface distribution of Fe, finding that Fe is distributed in a patchy belt near the rotational equator. Most remarkably, we confirm strong variations of the Hα line core which we interpret as due to occultations of the star by magnetically-confined circumstellar gas.
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