TITLE: GCN GRB OBSERVATION REPORT NUMBER: 5435 SUBJECT: GRB060807: Possible Highly Significant X-ray Emission Lines DATE: 06/08/10 20:07:55 GMT FROM: Nat Butler at MIT/CSR N. Butler (UC Berkeley) reports: We have analyzed the XRT PC mode data for GRB060807 (De Pasquale et al. 2006; GCN5409), also analyzed carefully by Page et al. (2006; GCN5423). We find identical spectral parameters (within errors) for the absorbed powerlaw model. However, we note that the fit goodness for the data in the 0.3-10 keV band from 0.1-250 ksec after the BAT trigger is marginal (chi^2/nu=138.8/103), rejectable at 99% confidence. The spectrum exhibits rare (see, e.g., Butler 2006, astro-ph/0604083, for a few additional possible cases) and narrow modulations about the best fit model. We can fit these modulations with 3 unresolved emission lines (giving a delta_chi^2 fit improvement of 39.0, for 6 additional degrees of freedom). We estimate a significance for the 3 line set of 5.0 sigma, including a decrease in the estimated significance due to the search for lines at many possible centroid energies in the 0.3-5.0 keV band. Plots of the spectrum with and without the 3 most significant lines can be found at: http://astro.berkeley.edu/~nat/GRB060807/xrt_060807_nolines.jpg , and http://astro.berkeley.edu/~nat/GRB060807/xrt_060807_lines.jpg . The centroid energies of the lines are 0.73, 0.90, and 1.24 keV, with uncertainties ~0.05 keV. The brightest line at 0.73 keV has a flux ~5 x 10^-14 erg cm^-2 s^-1 for the time period 0.1-250 ksec after the BAT trigger, or 3% of the 0.3-10 keV afterglow flux. Allowing associations for the lines with K-alpha transitions in H- or He-like species of common light metals or any ionization state in the Fe group elements, the 3-line set allows several redshift solutions. The highest probability peaks have dz/z~0.2 and occur at z=0.4, 1.0, 1.6, and 4.5. The large X-ray absorbing column (e.g., GCN5423) suggests that the source is not at high-z. An optical spectrum of the host galaxy or optical transient could resolve the redshift degeneracy and would provide important insight into the nature of the X-ray emission.