Experimental characterization and numerical modeling of total ionizing dose effects on field oxide MOS dosimeters

L. SAMBUCO SALOMONE; E. REDIN; S. CARBONETTO; M. GARCIA-INZA; M.V. CASSANI; A. FAIGON

RADIATION PHYSICS AND CHEMISTRY (OXFORD)

PERGAMON-ELSEVIER SCIENCE LTD

Lugar: Amsterdam; Año: 2020 vol. 182

0969-806X

The response of MOS dosimeters fabricated using field oxide as gate insulator was characterized measuring the threshold voltage shift with absorbed dose. Sensitivity for different applied bias and threshold voltage evolution with dose for constant bias were experimentally obtained. A physics-based numerical model was developed to reproduce these measurements. The model includes the main physical processes leading to hole trapping and neutralization with the capture rate per free hole as the only fitting parameter. The model predicted further experiments of the zero bias sensitivity for an extended dose range. For low threshold voltage values, charge neutralization was observed. Simulations were insensitive to the value of the neutralization-related physical parameter, even during threshold voltage recovery. We showed that this result is related with the presence of a potential well for electrons within the oxide which drives the neutralization process. This dosimeter was compared to other thick oxide ones and different dosimetry considerations were discussed.