Gain Notes for Revolution 1254 This is one of the later revolutions in the mission where the calibration sources have become so weak that for the best energy determination and IC Gain History table is needed. To get optimal results with this revolution it is necessary to use the IC gain history table that has been created offline at DNSC, instead of the gain history table created automatically by OSA. If you have the newest package of IC files from ISDC and these are correctly installed, OSA will find the IC gain history table automatically and you don't need to do anything else. The updated ISDC Instrument Characteristics can be downloaded from http://www.isdc.unige.ch/integral/download/osa_sw However, if you don't have the IC gain table package from ISDC you can download the table from the gain history archive by anonymous ftp through the link provided. Download the table to some suitable subdirectory for your analysis, then set the hidden OSA parameter gainHist: gainHist="/". These files are used instead of the automatically generated gain history tables wherever there has been an unusual or non-linear behaviour of the detector gain. JEM-X1: The Xe line analysis performed using the IC table shows excellent gain correction with all except the very first science windows, and a couple of weak,misfitted outliers, having a Xe level within 2% of the ideal. As usual however, it is recommended that users avoid the first few science windows for energy-sensitive applications. Calibration source number 4 (purple/orange) is no longer used for calibration purposes since an anode strip directly under the source has broken and no useable signal comes from this area of the detector any longer. CAO 23/01/2013 JEM-X2: The Xe line analysis performed using the IC table shows very good gain correction with all except the very first science windows having a Xe level within 3% of the ideal. As usual however, it is recommended that users avoid the first few science windows for energy-sensitive applications. The general level of the Xe line lies consistently too high and this is because this particular revolution had to be fitted against the Cu/Mo lines because the gain of the instrument was very large indeed, and much of the Xe line got eaten away by the upper level rejection. This peak distortion caused some problems getting a good fit on the Xe lines, hence the use of the other instrument background lines. CAO 11/02/2013