Neha Agrawal scite author profile

Radiation damage of the silicon detectors in future hadron colliders poses a major challenge for its reliable operation. It is crucial to investigate the neutron-induced radiation damage owing to its large flux in the calorimeters and the trackers. Measurement results on irradiated detectors are complemented by modeling for getting a deep insight into the device behavior. This work presents the development of neutron-induced radiation damage model in silicon detectors using TCAD simulation. A wide spectrum of measurement results available on neutron-irradiated silicon detectors, viz. full depletion voltage, leakage current, charge collection, and effective trapping times, helps in constraining the model parameters, resulting in a robust model for neutron damage. Modeling has been performed within the phase-space of the measurements, i.e. for different initial bulk resistivities, active thicknesses and for both polarities up to the fluence values of 9×10 14 1 MeV n eq cm −2 (where, 1 MeV n eq refers to the equivalent fluence for monoenergetic neutrons of energy 1 MeV) and for two measurement temperatures, 253 and 263 K. The results obtained from the devised neutron damage model show a good agreement with the measurement results.

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Development of neutron radiation damage model and comparison of the effects of neutron and proton irradiation on macroscopic properties of the silicon detectors

Jain

Saumya

Jain

et al. 2019

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Neha Agrawal

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Development of neutron radiation damage model and comparison of the effects of neutron and proton irradiation on macroscopic properties of the silicon detectors

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