Radiation damage and its recovery in focused ion beam fabricated ferroelectric capacitors

We studied the effect of ion damage on the properties of 50 keV Ga+ focused ion beam fabricated lead-zirconate-titanate capacitors as a function of the ion dose. We observed significant modification in the chemical composition of the damaged layer due to loss of lead and oxygen, and gallium impurity...

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Published in:Journal of applied physics 2002-09, Vol.92 (6), p.3275-3278
Main Authors: Stanishevsky, A., Nagaraj, B., Melngailis, J., Ramesh, R., Khriachtchev, L., McDaniel, E.
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Language:English
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description We studied the effect of ion damage on the properties of 50 keV Ga+ focused ion beam fabricated lead-zirconate-titanate capacitors as a function of the ion dose. We observed significant modification in the chemical composition of the damaged layer due to loss of lead and oxygen, and gallium impurity accumulation. The 5–10 nm thick damaged layer becomes dielectric after annealing and does not recover its ferroelectric properties. This dielectric layer substantially reduces the actual volume of the ferroelectric material in sub-100 nm structures, and can affect their performance.
doi_str_mv 10.1063/1.1489069
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title Radiation damage and its recovery in focused ion beam fabricated ferroelectric capacitors
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