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Functional test of a Radon sensor based on a high resistivity silicon BJT detector G.-F. Dalla Betta et al. A battery-powered,

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Presentation on theme: "Functional test of a Radon sensor based on a high resistivity silicon BJT detector G.-F. Dalla Betta et al. A battery-powered,"— Presentation transcript:

1 Functional test of a Radon sensor based on a high resistivity silicon BJT detector G.-F. Dalla Betta et al. A battery-powered, wireless Radon sensor has been realized using a BJT on high-resistivity Si as alpha-particle detector. Radon daughters are electrostatically collected on the detector surface. Thanks to the internal amplification of the BJT detector, real-time alpha particle detection is possible using simple readout electronics which records alpha particle arrival time and charge spectrum. The readout system is provided with wireless communication capabilities suitable for star-arranged networks (single-point-to-multi-point). Count rate vs. time obtained during Radon tests carried out at ENEA-IRP (top) and Univ. of Pisa (bottom) to compare sensitivity of sensors implementing different system- and detector-level options.

2 presence/absence of the electrostatic collection;
Functional test of a Radon sensor based on a high resistivity silicon BJT detector G.-F. Dalla Betta et al. Options that have been taken into consideration during the sensor optimization phase include: presence/absence of the electrostatic collection; ii) presence/absence of a light shield on top of the BJT detector; (iii) different geometries of the BJT detector. Optimized sensors yield a sensitivity of 4.9 cph/(100 Bq m-3) and a blank count rate of 0.05 cph. Count rate vs. time obtained during Radon tests carried out at ENEA-INMRI to compare performance of sensors using BJT detectors of different geometries. Calibration of optimized sensors at ENEA-INMRI.

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