Magellan Echelle Spectroscopy of TW Hydrae Brown Dwarfs

We present high-resolution optical spectroscopy of four candidate members of the nearby TW Hydrae young association including three brown dwarfs (2MASS 1207-3932, 2MASS 1139-3159 and TWA 5B) and one T Tauri multiple star (TWA 5A). Using echelle spectra from the Magellan Baade 6.5-meter telescope, we confirm the pre-main sequence status and cluster membership of the substellar candidates, through the detection of LiI, NaI consistent with low gravity, and radial velocity. Given their late spectral type (~M8) and the youth of the association (age ~10Myr), cluster membership certifies these three objects as very low-mass young brown dwarfs. One of them (2MASS 1207-3932) shows strong emission both in the Hydrogen Balmer series (H_alpha to H_epsilon) and in HeI (4471, 5876, 6678 and 7065 A), compared to other young brown dwarfs of similar spectral type. The H_alpha line is also relatively broad (10% width ~200 km/s) and asymmetric. These characteristics suggest that 2MASS 1207-3932 is a (weak) accretor. While we cannot rule out activity, comparison to a flaring field dwarf implies that such activity would have to be quite anomalous. The verification of accretion would make 2MASS 1207-3932 the oldest actively accreting brown dwarf known to date, suggesting that inner disk lifetimes in substellar objects can be comparable to those in stars, consistent with a similar formation mechanism. Finally, TWA 5A appears to be a variable accretor: observations separated by two days show broad accretion-like H_alpha (10% width \~270 km/s), with significant changes in the H_alpha profile, as well as in the strengths of HeI, Na D and [OI 6300]. TWA 5A is known to be a close triple; thus, our result implies that long-lived disks can exist even in multiple systems.