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Simulation and study of the percolation effect in the magnetic susceptibility of high-temperature superconducting composites

(2000) PHYSICAL REVIEW B. 61(13). p.9176-9180
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Abstract
A simple model is proposed to analyze the relationship between susceptibility and composition in superconducting composites. The model is based on a random distribution of superconducting and nonsuperconducting phases and on the occurrence of shielding when a nonsuperconducting area is encapsulated by superconducting material. A three-dimensional simulation based on percolation theory is in agreement with our experimental data on a series of MgO-superconductor composites. A predicted percolation effect was observed and a maximum in shielding efficiency was determined.

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Citation

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Chicago
Bruneel, Els, AJ Ramirez-Cuesta, Isabel Van Driessche, and Serge Hoste. 2000. “Simulation and Study of the Percolation Effect in the Magnetic Susceptibility of High-temperature Superconducting Composites.” Physical Review B 61 (13): 9176–9180.
APA
Bruneel, Els, Ramirez-Cuesta, A., Van Driessche, I., & Hoste, S. (2000). Simulation and study of the percolation effect in the magnetic susceptibility of high-temperature superconducting composites. PHYSICAL REVIEW B, 61(13), 9176–9180.
Vancouver
1.
Bruneel E, Ramirez-Cuesta A, Van Driessche I, Hoste S. Simulation and study of the percolation effect in the magnetic susceptibility of high-temperature superconducting composites. PHYSICAL REVIEW B. 2000;61(13):9176–80.
MLA
Bruneel, Els, AJ Ramirez-Cuesta, Isabel Van Driessche, et al. “Simulation and Study of the Percolation Effect in the Magnetic Susceptibility of High-temperature Superconducting Composites.” PHYSICAL REVIEW B 61.13 (2000): 9176–9180. Print.
@article{124496,
  abstract     = {A simple model is proposed to analyze the relationship between susceptibility and composition in superconducting composites. The model is based on a random distribution of superconducting and nonsuperconducting phases and on the occurrence of shielding when a nonsuperconducting area is encapsulated by superconducting material. A three-dimensional simulation based on percolation theory is in agreement with our experimental data on a series of MgO-superconductor composites. A predicted percolation effect was observed and a maximum in shielding efficiency was determined.},
  author       = {Bruneel, Els and Ramirez-Cuesta, AJ and Van Driessche, Isabel and Hoste, Serge},
  issn         = {1098-0121},
  journal      = {PHYSICAL REVIEW B},
  language     = {eng},
  number       = {13},
  pages        = {9176--9180},
  title        = {Simulation and study of the percolation effect in the magnetic susceptibility of high-temperature superconducting composites},
  url          = {http://dx.doi.org/10.1103/PhysRevB.61.9176},
  volume       = {61},
  year         = {2000},
}

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