Recovery effect of electron irradiated 4H-SiC Schottky diodes

The effects of electron irradiation on the defects associated electronic levels in Schottky diodes on 4H silicon carbide epilayers grown by chemical vapour deposition were investigated by Deep Level Transient Spectroscopy (DLTS) and Capacitance-Voltage (C-V) characteristics. These investigations were performed before and after irradiation with 8.6 MeV electrons at different doses. After irradiation four new traps with enthalpies equal to (Ec-0.23 eV), (Ec-0.39 eV), (Ec-0.63 eV) and (Ec-0.75 eV) were detected. Their thermal stability, a key point to determine their structure on the basis of recent theoretical and experimental results, was carefully investigated since it was earlier observed that during DLTS temperature runs up to 500 K a slight but significant recovery of a few irradiation-induced levels occurs. This effect was previously observed in literature for the level (Ec-0.70 eV) after thermal treatment at 500 \ubaC [1], but the present results indicate that it involves more than a single level and is also effective at lower temperature. DLTS analyses were also performed from room temperature to liquid nitrogen temperature and vice versa up to 500 K. The annealing kinetics is reported and a few conclusions on the structure of the defects involved in the recovery are drawn. The correlation with the diode charge collection efficiency is also reported

Wood destroyer macrofungi of Denizli (Turkey) region

We report on characterization, performance and applications of nuclear detectors fabricated on Semi-Insulating (SI) Liquid Encapsulated Czokralski (LEC) grown GaAs. We have developed a non alloyed and non injecting ohmic contact (NAOC) based on ion implantation to fabricate detectors which can operate at applied voltages greater than the one needed to make them fully depleted. With such a detectors and at high applied voltages, Va > 500 V, a nearly full charge collection efficiency has been achieved for both alpha particles and X-rays. Furthermore the best energy resolution achieved at room temperature has been 1.1% for 5.48 MeV alpha particles and 26.1% for 59.5 keV X-rays, while at -30 °C the best energy resolution measured for X-rays has been 4.1%