TY - JOUR
T1 - X-shooting Herbig Ae/Be stars: Accretion probed by near-infrared He I emission
AU - Oudmaijer, R.D.
AU - Van Den Ancker, M. E.
AU - Baines, D.
AU - Caselli, P.
AU - Drew, J.E.
AU - Hoare, M.G.
AU - Lumsden, S.L.
AU - Montesinos, B.
AU - Sim, S.
AU - Vink, J.S.
AU - Wheelwright, H.E.
AU - de Wit, W.J.M.
PY - 2011
Y1 - 2011
N2 - The Herbig Ae/Be stars are intermediate mass pre-main sequence stars that bridge the gap between the low mass T Tauri
stars and the Massive Young Stellar Objects. In this mass range, the acting star forming mechanism switches from magnetically
controlled accretion to an as yet unknown mechanism, but which is likely to be direct disk accretion onto the
star. We observed a large sample of Herbig Ae/Be stars with X-shooter to address this issue from a multi-wavelength
perspective. It is the largest such study to date, not only because of the number of objects involved, but also because of the
large wavelength coverage from the blue to the near-infrared. This allows many accretion diagnostics to be studied simultaneously.
By correlating the various properties with mass, temperature and age, we aim to determine where and whether
the magnetically controlled mass accretion mechanism halts and the proposed direct disk accretion takes over. Here, we
will give an overview of the background, present some observations and discuss our initial results. We will introduce a
new accretion diagnostic for the research of Herbig Ae/Be stars, the He I 1.083 μm line.
AB - The Herbig Ae/Be stars are intermediate mass pre-main sequence stars that bridge the gap between the low mass T Tauri
stars and the Massive Young Stellar Objects. In this mass range, the acting star forming mechanism switches from magnetically
controlled accretion to an as yet unknown mechanism, but which is likely to be direct disk accretion onto the
star. We observed a large sample of Herbig Ae/Be stars with X-shooter to address this issue from a multi-wavelength
perspective. It is the largest such study to date, not only because of the number of objects involved, but also because of the
large wavelength coverage from the blue to the near-infrared. This allows many accretion diagnostics to be studied simultaneously.
By correlating the various properties with mass, temperature and age, we aim to determine where and whether
the magnetically controlled mass accretion mechanism halts and the proposed direct disk accretion takes over. Here, we
will give an overview of the background, present some observations and discuss our initial results. We will introduce a
new accretion diagnostic for the research of Herbig Ae/Be stars, the He I 1.083 μm line.
U2 - 10.1002/asna.201111525
DO - 10.1002/asna.201111525
M3 - Article
SN - 0004-6337
VL - 332
SP - 238
EP - 241
JO - Astronomische Nachrichten
JF - Astronomische Nachrichten
IS - 3
ER -