Single silicon vacancy-oxygen complex defect and variable retention time phenomenon in dynamic random access memories

T. Umeda; K. Okonogi; K. Ohyu; S. Tsukada; K. Hamada; S. Fujieda; Y. Mochizuki

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Single silicon vacancy-oxygen complex defect and variable retention time phenomenon in dynamic random access memories

Applied Physics Letters (2006) 88(25)

DOI: 10.1063/1.2213966

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Abstract

The variable retention time phenomenon has recently been highlighted as an important issue in dynamic random access memory (DRAM) technology. Based on electrically detected magnetic resonance and simulation studies, we suggest that a single Si vacancy-oxygen complex defect is responsible for this phenomenon, when the defect is embedded in the near surface drain-gate boundary of a DRAM cell. © 2006 American Institute of Physics.

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Umeda, T., Okonogi, K., Ohyu, K., Tsukada, S., Hamada, K., Fujieda, S., & Mochizuki, Y. (2006). Single silicon vacancy-oxygen complex defect and variable retention time phenomenon in dynamic random access memories. Applied Physics Letters, 88(25). https://doi.org/10.1063/1.2213966

Single silicon vacancy-oxygen complex defect and variable retention time phenomenon in dynamic random access memories

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