Arrays of single photon avalanche diodes (SPADs) fabricated in a 150 nm CMOS technology have been exposed to neutrons up to fluences of about 4.3 × 10^10~1 MeV neutron equivalent cm^-2 , with fluxes around 3 × 10^6~1 MeV neutron equivalent cm^-2s^-1. Dark count rate (DCR) was monitored during irradiation and for some time, from 5 to 23 min, depending on the irradiation step, at the end of the irradiation interval to investigate the dynamics of defect formation and short-term annealing. Measurements were performed both on single- and on dual-layer devices, where SPAD arrays are face to face bonded and read out in coincidence. A range of different DCR behaviors were detected after single neutron interaction with the device substrate, including in particular partial performance recovery following a logarithmic relaxation process, but also damped oscillation phenomena, sudden step-shaped changes, and the emergence of RTS-like fluctuations, pointing to different defect reordering dynamics.
Ratti, L., Brogi, P., Collazuol, G., Betta, G.-F.D., Delgado, J.C., Marrocchesi, P.S., et al. (2024). Online Dark Count Rate Measurements in 150 nm CMOS SPADs Exposed to Low Neutron Fluxes. IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 71(4), 698-709 [10.1109/TNS.2024.3353689].
Online Dark Count Rate Measurements in 150 nm CMOS SPADs Exposed to Low Neutron Fluxes
Brogi P.;Marrocchesi P. S.;Pino F.;Stolzi F.;
2024-01-01
Abstract
Arrays of single photon avalanche diodes (SPADs) fabricated in a 150 nm CMOS technology have been exposed to neutrons up to fluences of about 4.3 × 10^10~1 MeV neutron equivalent cm^-2 , with fluxes around 3 × 10^6~1 MeV neutron equivalent cm^-2s^-1. Dark count rate (DCR) was monitored during irradiation and for some time, from 5 to 23 min, depending on the irradiation step, at the end of the irradiation interval to investigate the dynamics of defect formation and short-term annealing. Measurements were performed both on single- and on dual-layer devices, where SPAD arrays are face to face bonded and read out in coincidence. A range of different DCR behaviors were detected after single neutron interaction with the device substrate, including in particular partial performance recovery following a logarithmic relaxation process, but also damped oscillation phenomena, sudden step-shaped changes, and the emergence of RTS-like fluctuations, pointing to different defect reordering dynamics.
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https://hdl.handle.net/11365/1293541