Abstract
A new generation of MOS-type DEPFET active pixel sensors in double metal/double poly technology with /spl sim/25 /spl mu/m pixel size has been developed to meet the requirements of the vertex detector at the ILC (International Linear Collider). The paper presents the design and technology of the new linear MOS-type DEPFET sensors including a module concept and results of a feasibility study on how to build ultra-thin fully depleted sensors. One of the major challenges at the ILC is the dominant e/sup +/e/sup -/ pair background from beam-beam interactions. The resulting high occupancy in the first layer of the vertex detector can be reduced by an extremely fast read out of the pixel arrays but the pair-produced electrons will also damage the sensor by ionization. Like all MOS devices, the DEPFET is inherently susceptible to ionizing radiation. The predominant effect of this kind of irradiation is the shift of the threshold voltage to more negative values due to the build up of positive oxide charges. The paper presents the first results of the irradiation of such devices with hard X-rays and gamma rays from a /sup 60/Co source up to 1 Mrad(Si) under various biasing conditions.
Schlagwörter
Detectors
Electrons
Ionization
Ionizing radiation
Ionizing radiation sensors
MOS devices
Paper technology
Sensor arrays
Threshold voltage
X-rays