Author :
Gianoli, A. ; Bal, F. ; Barr, G. ; Brodier-Yourstone, P. ; Buchholz, P. ; Ceccucci, A. ; Cerri, C. ; Chlopik, A. ; Constantini, F. ; Fantechi, R. ; Formenti, F. ; Funk, W. ; Giudici, S. ; Gorini, B. ; Guzik, Z. ; Hallgren, B. ; Kozhevnikov, Y. ; Iwansky,
Abstract :
The NA48 experiment at the CERN SPS accelerator is making a measurement of the direct CP violation parameter ε´/ε by comparing the four rates of decay of KS and KL into 2π0 and π+π-. To reconstruct the decays into 2π0 the information from the almost 13500 channels of a quasi-homogeneous liquid krypton electromagnetic calorimeter is used. The readout electronics of the calorimeter has been designed to provide a dynamic range from a few MeV to about 50 GeV energy deposition per cell, and to sustain a high rate of incident particles. The system is made by cold charge preamplifiers (working at 120°K), low-noise fast shapers followed by digitizer electronics at 40 MHz sampling rate that employs a gain switching technique to expand the dynamic range, where the gain can be selected for each sample individually (i.e. every 25 ns). To reduce the amount of data collected the system contains a zero suppression circuit based on halo expansion
Keywords :
calibration; krypton; liquid scintillation detectors; nuclear electronics; particle calorimetry; preamplifiers; readout electronics; Kr; NA48 LKr calorimeter readout electronics; NA48 experiment; digitizer electronics; direct CP violation parameter; halo expansion; low-noise fast shapers; quasi-homogeneous liquid krypton electromagnetic calorimeter; zero suppression circuit; Calibration; Circuits; Collaboration; Dynamic range; Electromagnetic measurements; Energy resolution; Mesons; Preamplifiers; Readout electronics; Sampling methods;
