The effect of Al-Ta2O5 topographic interface roughness on the leakage current of Ta2O5 thin films

Y. S. Kim; Y. H. Lee; K. M. Lim; M. Y. Sung

doi:10.1063/1.124018

The effect of Al-Ta₂O₅ topographic interface roughness on the leakage current of Ta₂O₅ thin films

Y. S. Kim, Y. H. Lee, K. M. Lim, M. Y. Sung

Research output: Contribution to journal › Article › peer-review

44 Citations (Scopus)

Abstract

Amorphous Ta₂O₅ thin films were formed by radio-frequency magnetron sputtering at the substrate temperature of 200°C. The electrical properties of Ta₂O₅ thin films were investigated as a function of the film thickness. The dominant conduction mechanism transited from the electrode-limited conduction (Schottky emission current) at low field to the bulk-limited conduction (Poole-Frenkel current) at high field. With increasing thickness of the thin films, the surface roughness increased, whereas the transition fields from the electrode-limited to the bulk-limited conduction process decreased. To verify the effect of this surface roughness on the electric conduction mechanism, a two-dimensional numerical simulator, MEDICI, was used to simulate the electric-field distribution at the bulk region of the thin film and the interface region between the thin film and the electrode.

Original language	English
Pages (from-to)	2800-2802
Number of pages	3
Journal	Applied Physics Letters
Volume	74
Issue number	19
DOIs	https://doi.org/10.1063/1.124018
Publication status	Published - 1999 May 10

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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title = "The effect of Al-Ta2O5 topographic interface roughness on the leakage current of Ta2O5 thin films",

abstract = "Amorphous Ta2O5 thin films were formed by radio-frequency magnetron sputtering at the substrate temperature of 200°C. The electrical properties of Ta2O5 thin films were investigated as a function of the film thickness. The dominant conduction mechanism transited from the electrode-limited conduction (Schottky emission current) at low field to the bulk-limited conduction (Poole-Frenkel current) at high field. With increasing thickness of the thin films, the surface roughness increased, whereas the transition fields from the electrode-limited to the bulk-limited conduction process decreased. To verify the effect of this surface roughness on the electric conduction mechanism, a two-dimensional numerical simulator, MEDICI, was used to simulate the electric-field distribution at the bulk region of the thin film and the interface region between the thin film and the electrode.",

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AU - Kim, Y. S.

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AU - Sung, M. Y.

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N2 - Amorphous Ta2O5 thin films were formed by radio-frequency magnetron sputtering at the substrate temperature of 200°C. The electrical properties of Ta2O5 thin films were investigated as a function of the film thickness. The dominant conduction mechanism transited from the electrode-limited conduction (Schottky emission current) at low field to the bulk-limited conduction (Poole-Frenkel current) at high field. With increasing thickness of the thin films, the surface roughness increased, whereas the transition fields from the electrode-limited to the bulk-limited conduction process decreased. To verify the effect of this surface roughness on the electric conduction mechanism, a two-dimensional numerical simulator, MEDICI, was used to simulate the electric-field distribution at the bulk region of the thin film and the interface region between the thin film and the electrode.

AB - Amorphous Ta2O5 thin films were formed by radio-frequency magnetron sputtering at the substrate temperature of 200°C. The electrical properties of Ta2O5 thin films were investigated as a function of the film thickness. The dominant conduction mechanism transited from the electrode-limited conduction (Schottky emission current) at low field to the bulk-limited conduction (Poole-Frenkel current) at high field. With increasing thickness of the thin films, the surface roughness increased, whereas the transition fields from the electrode-limited to the bulk-limited conduction process decreased. To verify the effect of this surface roughness on the electric conduction mechanism, a two-dimensional numerical simulator, MEDICI, was used to simulate the electric-field distribution at the bulk region of the thin film and the interface region between the thin film and the electrode.

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The effect of Al-Ta₂O₅ topographic interface roughness on the leakage current of Ta₂O₅ thin films

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