Optical Spectroscopy of GRO J1655-40

We have obtained optical spectra of the soft X-ray transient GRO J1655-40 during different X-ray spectral states (quiescence, high-soft and hard outburst) between 1994 Aug and 1997 Jun. Characteristic features observed during the 1996-97 high-soft state were: a) broad absorption lines at Halpha and Hbeta, probably formed in the inner disk; b) double-peaked HeII 4686 emission lines, formed in a temperature-inversion layer on the disk surface, created by the soft X-ray irradiation; c) double-peaked Halpha emission, with a strength associated with the hard X-ray flux, suggesting that it was probably emitted from deeper layers than He II 4686. The observed rotational velocities of all the double-peaked lines suggest that the disk was extended slightly beyond its tidal radius. Three classes of lines were identified in the spectra taken in 1994 Aug-Sep, during a period of low X-ray activity between two strong X-ray flares: broad absorption, broad (flat-topped) emission and narrow emission. We have found that the narrow emission lines (single-peaked or double-peaked) cannot be explained by a thin-disk model. We propose that the system was in a transient state, in which the accretion disk might have had an extended optically thin cocoon and significant matter outflow. After the onset of a hard X-ray flare the disk signatures disappeared, and strong single-peaked Halpha and Paschen emission was detected, suggesting that the cocoon became opaque to optical radiation. High-ionisation lines disappeared or weakened. Two weeks after the end of the flare, the cocoon appeared to be once again optically thin.