CONICET | Buscador de Institutos y Recursos Humanos

Context. Contrary to the late-type stars, our knowledge of atomic transitions in intermediate-mass stars is still very poor. The recentavailability of ESO?s high-resolution spectrograph CRIRES offers now the opportunity to study numerous spectral features in thenear-IR in intermediate-mass main-sequence and pre-main-sequence stars.Aims. The aim of the study is to explore the diagnostic potential of near-IR spectral regions. We carry out the first line identificationin a few spectral regions for the two strongly magnetic Ap stars γ Equ and HD 154708, and their potential precursors two pre-mainsequence Herbig Ae/Be stars HD 101412 and 51 Oph.Methods. High-resolution CRIRES spectra were obtained in three spectral regions, two regions around 1 μm and one region around1.57 μm containing magnetically sensitive Fe i lines. To study the spectral line variability in the Herbig Ae star HD 101412, theobservations were collected on six different rotation phases. All currently available atomic line lists were involved to properly identifythe detected spectral features.Results. The largest number of near-IR spectral features was detected and identified in the well-studied magnetic Ap star γ Equ.Nearly 30% of the spectral lines in the Ap star HD 154708 with one of the strongest magnetic fields known among the Ap stars ofthe order of 25 kG, remain unidentified due to a lack of atomic data. Only very few lines belonging to the rare earth element grouphave been identified in both Ap stars. A number of spectral lines including the Ce iii and Dy ii lines appear magnetically split due tothe presence of a strong magnetic field in their atmospheres. The content of the spectra of the Herbig Ae/Be stars HD 101412 and51 Oph is rather unexciting. Variable behaviour of lines of the elements He, N, Mg, Si, and Fe over the rotation period in the spectraof HD 101412 confirm our previous finding of variability in the optical region. Due to the very fast rotation of 51 Oph, only a fewspectral lines have been identified with certainty.