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Strong Proton-Defect Interaction in Synergistic Irradiation Damage System

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arxiv 1806.03873 v1 pith:AEGKC26Q submitted 2018-06-11 physics.space-ph cond-mat.mes-hall

Strong Proton-Defect Interaction in Synergistic Irradiation Damage System

classification physics.space-ph cond-mat.mes-hall
keywords interactionannealingdamagetermproton-defectstrongdosedose-rate-dependent
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We experimentally investigated total ionizing dose (TID) response of the input-stage PNP transitor in an operational amplifier LM324N with various initial displacement damage (IDD). We found that, the damage first decreases and then increases with the total dose, which can be exactly described by a dose-rate-dependent linear generation term, an IDD-dependent linear annealing term, and a dose-rate-dependent exponential annealing term. We demonstrate that, the first two terms are the well-known TID and injection annealing effect, respectively, while the third term stems from the reactions between the TID-induced protons diffusing from silica and the defects generated in silicon, which implies the presence of a unexplored proton-defect interaction between TID and DD effects. Moreover, we find that such an interaction is as strong as the injection annealing. Our work show that, beside the well-known Coulomb interaction of trapping charge in silica with carriers in silicon, a strong proton-defect interaction also plays important role in the synergistic damage.

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