//////////////////////////////////////////////////////////////////// / Here is the information on the contents of the ps and eps files / / to be found in this directory : / //////////////////////////////////////////////////////////////////// Angle=0 and magnet off (1st. period) : -------------------------------------- * eff7_vdet.eps : Efficiency as function of bias voltage for ATT7 * eff8_vdet.eps : Efficiency as function of bias voltage for ATT8 * eff_2071_2112_new.eps : Efficiency vs. threshold for Vatt7=50 and Vatt8=50 ( nominal thresholds ) * eff_2142_2164.eps : Efficiency vs. threshold for Vatt7=150 and Vatt8=100 * eff_2142_2164_new.eps : Efficiency vs. threshold for Vatt7=150 and Vatt8=100 ( nominal thresholds ) * eff_2182_2198.eps : Efficiency vs. threshold for Vatt7=250 and Vatt8=150 * eff_2182_2198_new.eps : Efficiency vs. threshold for Vatt7=250 and Vatt8=150 ( nominal thresholds ) * eff_2203_2211.eps : Efficiency vs. threshold for Vatt7=275 and Vatt8=175 * eff_2203_2211_new.eps : Efficiency vs. threshold for Vatt7=275 and Vatt8=175 ( nominal thresholds ) * mph_vdet.eps : Median pulse height as function of bias voltage * eff_noise.eps : Efficiency vs. noise occupancy ( as obtained leaving out channels havng > 1% of the total occupancy in all the runs ) * noise_att7_0_2233.eps : Noise occupancy vs. threshold for ATT7; Vatt7=250 (noisy channels in all the runs skipped) * noisef_att7_0_2233.eps : Noise occupancy vs. threshold for ATT7; Vatt7=250 (noisy channels for run at 1fC skipped) * noise_att8_0_2233.eps : Noise occupancy vs. threshold for ATT8; Vatt8=125 (noisy channels in all the runs skipped) * noisef_att8_0_2233.eps : Noise occupancy vs. threshold for ATT8; Vatt8=125 (noisy channels for run at 1fC skipped) * noise_att7_2238_2241.eps : Noise occupancy vs. threshold for ATT7; Vatt7=150 (noisy channels in all the runs skipped) * noisef_att7_2238_2241.eps : Noise occupancy vs. threshold for ATT7; Vatt7=150 (noisy channels for run at 1fC skipped) * noise_att8_2238_2241.eps : Noise occupancy vs. threshold for ATT7; Vatt8=125 (noisy channels in all the runs skipped) * noisef_att8_2238_2241.eps : Noise occupancy vs. threshold for ATT7; Vatt8=125 (noisy channels for run at 1fC skipped) Vatt7=250, Vatt8=125 and magnet on unless otherwise stated for the next files ----------------------------------------------------------------------------- (2nd period) : -------------- * eff_2357_2366.eps : Efficiency vs. threshold; magnet off, angle=0 * eff_2392_2407_old.eps : Efficiency vs. threshold; angle=12 (lbic2_0+lbic2_1+lbic1_0 as anchor planes) * eff_2392_2407_old.eps : Efficiency vs. threshold; angle=12 (lbic2_1+lbic1_0 as anchor planes) * eff_2409_2422.eps : Efficiency vs. threshold; Vatt7=150 and angle=12 * eff_2425_2438.eps : Efficiency vs. threshold; angle=-3 * eff_2439_2448.eps : Efficiency vs. threshold; Vatt7=150 and angle=-3 * eff_2490_2499.eps : Efficiency vs. threshold; angle=19.5 * eff_2504_2525.eps : Efficiency vs. threshold; angle=0 * eff_2508_2517.eps : Efficiency vs. threshold; Vatt7=150, angle=0 and magnet off * eff_2529_2539.eps : Efficiency vs. threshold; angle=-8 * eff_att7_angle.eps : Efficiency vs. angle for certain thresholds for ATT7 * eff_att8_angle.eps : Efficiency vs. angle for certain thresholds for ATT8 * lorentz.eps : Mean cluster widht vs. angle for all the chips of ATT7 and ATT8 * lorentz_2chips.eps : Mean cluster widht vs. angle for chips ATT7-0 and ATT8-1 * mcw_thr.ps : Mean cluster width as function of threshold for angle=12 * mph_angle.eps : Median pulse height vs. angle for all the chips of ATT7 and ATT8 * mph_angle_2chips.eps : Median pulse height vs. angle for chips ATT7-0 and ATT8-1 * clw_chan_att70.eps : Mean cluster width as function of channel for ATT7-0 Extrapolated positions of tracks on ATT7-0 * clw_chan_att71.eps : Mean cluster width as function of channel for ATT7-1 Extrapolated positions of tracks on ATT7-1 * mcw_thr_lorentz.ps : Mean cluster width for ATT7 chip 0 at 0.8fC, 1.0fC, 1.2fC and 1.4fC ( first 4 plots ) and for ATT8 chip 1 at the same thresholds with fit and Lorentz angles appearing as 4th parameters. Last plot shows lorentz angle values as function of threshold for both chips. * noise_1fc.ps : Occupancy distribution for Vatt7=250V and Vatt8=125V at 1fC for the noise runs taken after beam period. The horizontal line establishes the limit for a channel being considered hot in the following noise analysis ( occ. > 1% = 1000 hits ) * att7.det + att8.det : List of hot and dead channels for both modules * att70*, att71*, att80*, att81* : Mean cluster width and error for each threshold value. One file per angle