Automated identification and indexing of dislocations in crystal interfaces

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Stukowski, Alexander, et al. “Automated Identification and Indexing of Dislocations in Crystal Interfaces”. Modelling and Simulation in Materials Science and Engineering, vol. 20, no. 8, 2012, p. 085007, https://doi.org/10.1088/0965-0393/20/8/085007.
Stukowski, A., Bulatov, V. V., & Arsenlis, A. (2012). Automated identification and indexing of dislocations in crystal interfaces. Modelling and Simulation in Materials Science and Engineering, 20(8), 085007. https://doi.org/10.1088/0965-0393/20/8/085007
Stukowski, Alexander, Vasily V Bulatov, and Athanasios Arsenlis. “Automated Identification and Indexing of Dislocations in Crystal Interfaces”. Modelling and Simulation in Materials Science and Engineering 20, no. 8 (2012): 085007. https://doi.org/10.1088/0965-0393/20/8/085007.
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Stukowski A, Bulatov VV, Arsenlis A. Automated identification and indexing of dislocations in crystal interfaces. Modelling and Simulation in Materials Science and Engineering. 2012;20(8):085007.
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Refrences
Title Journal Journal Categories Citations Publication Date
LXXXIII. Crystal dislocations.—Elementary concepts and definitions The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science 268 1951
LXXXIII. Crystal dislocations.—Elementary concepts and definitions Modelling and Simulation in Materials Science and Engineering
  • Science: Chemistry
  • Science: Physics
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Chemical technology
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
 2012
LXXXIII. Crystal dislocations.—Elementary concepts and definitions Modelling and Simulation in Materials Science and Engineering
  • Science: Chemistry
  • Science: Physics
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Chemical technology
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
 2012
LXXXIII. Crystal dislocations.—Elementary concepts and definitions Modelling and Simulation in Materials Science and Engineering
  • Science: Chemistry
  • Science: Physics
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Chemical technology
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
 2010
LXXXIII. Crystal dislocations.—Elementary concepts and definitions Modelling and Simulation in Materials Science and Engineering
  • Science: Chemistry
  • Science: Physics
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Chemical technology
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
  • Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
 2010
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The category Science: Chemistry 917 is the most commonly referenced area in studies that cite this article. The first research to cite this article was titled Computational Analysis Methods in Atomistic Modeling of Crystals and was published in 2013. The most recent citation comes from a 2024 study titled Twin and phase boundaries synergistic effect on multiscale dynamic fracture in Ni-based deformed superalloy. This article reached its peak citation in 2022, with 268 citations. It has been cited in 246 different journals, 18% of which are open access. Among related journals, the Computational Materials Science cited this research the most, with 126 citations. The chart below illustrates the annual citation trends for this article.
Citations used this article by year