Mathematical model of Boltzmann's sigmoidal equation applicable to the set-up of the RF-magnetron co-sputtering in thin films deposition of BaxSr1-xTiO3
Article
Overview
Research
Identity
Additional Document Info
View All
Overview
abstract
In this work, we present the stoichiometric behaviour of Ba2 and Sr2 when they are deposited to make a solid solution of barium strontium titanate. BaxSr1-xTiO3 (BST) thin films of nanometric order on a quartz substrate were obtained by means of in-situ RF-magnetron co-sputtering at 495°C temperature, applying a total power of 120 W divided into intervals of 15 W that was distributed between two magnetron sputtering cathodes containing targets of BaTiO3 and SrTiO3, as follows: 0-120, 15-105, 30-90, 45-75, 60-60, 75-45, 90-30, 105-15 and 120-0 W. Boltzmann%27s sigmoidal modified equation (Boltzmann%27s profile) is proposed to explain the behaviour and the deposition ratio Ba/Sr of the BST as a function of the RF-magnetron power. The Boltzmann%27s profile proposal shows concordance with experimental data of deposits of BST on substrates of nichrome under the same experimental conditions, showing differences in the ratio Ba/Sr of the BST due to the influence of the substrate. © 2017 Indian Academy of Sciences.
In this work, we present the stoichiometric behaviour of Ba2%2b and Sr2%2b when they are deposited to make a solid solution of barium strontium titanate. BaxSr1-xTiO3 (BST) thin films of nanometric order on a quartz substrate were obtained by means of in-situ RF-magnetron co-sputtering at 495°C temperature, applying a total power of 120 W divided into intervals of 15 W that was distributed between two magnetron sputtering cathodes containing targets of BaTiO3 and SrTiO3, as follows: 0-120, 15-105, 30-90, 45-75, 60-60, 75-45, 90-30, 105-15 and 120-0 W. Boltzmann%27s sigmoidal modified equation (Boltzmann%27s profile) is proposed to explain the behaviour and the deposition ratio Ba/Sr of the BST as a function of the RF-magnetron power. The Boltzmann%27s profile proposal shows concordance with experimental data of deposits of BST on substrates of nichrome under the same experimental conditions, showing differences in the ratio Ba/Sr of the BST due to the influence of the substrate. © 2017 Indian Academy of Sciences.
In this work, we present the stoichiometric behaviour of Ba2%2b and Sr2%2b when they are deposited to make a solid solution of barium strontium titanate. BaxSr1-xTiO3 (BST) thin films of nanometric order on a quartz substrate were obtained by means of in-situ RF-magnetron co-sputtering at 495°C temperature, applying a total power of 120 W divided into intervals of 15 W that was distributed between two magnetron sputtering cathodes containing targets of BaTiO3 and SrTiO3, as follows: 0-120, 15-105, 30-90, 45-75, 60-60, 75-45, 90-30, 105-15 and 120-0 W. Boltzmann's sigmoidal modified equation (Boltzmann's profile) is proposed to explain the behaviour and the deposition ratio Ba/Sr of the BST as a function of the RF-magnetron power. The Boltzmann's profile proposal shows concordance with experimental data of deposits of BST on substrates of nichrome under the same experimental conditions, showing differences in the ratio Ba/Sr of the BST due to the influence of the substrate. © 2017 Indian Academy of Sciences.
publication date
funding provided via
published in
Research
keywords
Barium strontium titanate; Boltzmann's equation.; Sputtering deposition; Stoichiometric behaviour; Thin films Barium; Barium compounds; Barium titanate; Boltzmann equation; Deposition; Sputtering; Strontium; Strontium titanates; Substrates; Thin films; Titanium compounds; Boltzmann's equations; Experimental conditions; Modified equation; Quartz substrate; Rf-magnetron co-sputtering; Sputtering deposition; Stoichiometric behaviour; Thin films deposition; Barium strontium titanate
Identity
Digital Object Identifier (DOI)
Additional Document Info
start page
end page
volume
issue
