Optimization of self-interstitial clusters in 3C-SiC with genetic algorithm

Under irradiation, SiC develops damage commonly referred to as black spot defects, which are speculated to be self-interstitial atom clusters. To understand the evolution of these defect clusters and their impacts (e.g., through radiation induced swelling) on the performance of SiC in nuclear applic...

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Published inJournal of nuclear materials Vol. 492; no. C; pp. 62 - 73
Main Authors Ko, Hyunseok, Kaczmarowski, Amy, Szlufarska, Izabela, Morgan, Dane
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.08.2017
Elsevier BV
Elsevier
Subjects
Algorithms
Cluster analysis
Clusters
Defect cluster
Density
Empirical analysis
Evolution
Genetic algorithm
Genetic algorithms
Hamiltonian functions
Interstitials
Irradiation
Radiation
Radiation damage
Radiation effects
Self-interstitial
SiC
Silicon carbide
Studies
Thermodynamics
SiC
Defect cluster
Genetic algorithm
Radiation
Self-interstitial
Online AccessGet full text
ISSN0022-3115
1873-4820
1873-4820
DOI10.1016/j.jnucmat.2017.05.015

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Abstract Under irradiation, SiC develops damage commonly referred to as black spot defects, which are speculated to be self-interstitial atom clusters. To understand the evolution of these defect clusters and their impacts (e.g., through radiation induced swelling) on the performance of SiC in nuclear applications, it is important to identify the cluster composition, structure, and shape. In this work the genetic algorithm code StructOpt was utilized to identify groundstate cluster structures in 3C-SiC. The genetic algorithm was used to explore clusters of up to ∼30 interstitials of C-only, Si-only, and Si-C mixtures embedded in the SiC lattice. We performed the structure search using Hamiltonians from both density functional theory and empirical potentials. The thermodynamic stability of clusters was investigated in terms of their composition (with a focus on Si-only, C-only, and stoichiometric) and shape (spherical vs. planar), as a function of the cluster size (n). Our results suggest that large Si-only clusters are likely unstable, and clusters are predominantly C-only for n ≤ 10 and stoichiometric for n > 10. The results imply that there is an evolution of the shape of the most stable clusters, where small clusters are stable in more spherical geometries while larger clusters are stable in more planar configurations. We also provide an estimated energy vs. size relationship, E(n), for use in future analysis. •Optimized self-interstitial atom clusters in 3C-SiC with genetic algorithm.•Clustering of Si interstitials is energetically unfavorable for size n atoms ≥ 4.•Stable clusters are C-only for n < 10, and stoichiometric for n ≥ 10.•Clusters with planar features become stable as cluster size increase.•Thermodynamic information on stable clusters provided to guide further studies.
AbstractList Under irradiation, SiC develops damage commonly referred to as black spot defects, which are speculated to be self-interstitial atom clusters. To understand the evolution of these defect clusters and their impacts (e.g., through radiation induced swelling) on the performance of SiC in nuclear applications, it is important to identify the cluster composition, structure, and shape. In this work the genetic algorithm code StructOpt was utilized to identify groundstate cluster structures in 3C-SiC. The genetic algorithm was used to explore clusters of up to ~30 interstitials of C-only, Si-only, and Si-C mixtures embedded in the SiC lattice. We performed the structure search using Hamiltonians from both density functional theory and empirical potentials. The thermodynamic stability of clusters was investigated in terms of their composition (with a focus on Si-only, C-only, and stoichiometric) and shape (spherical vs. planar), as a function of the cluster size (n). Our results suggest that large Si-only clusters are likely unstable, and clusters are predominantly C-only for n ≤ 10 and stoichiometric for n > 10. The results imply that there is an evolution of the shape of the most stable clusters, where small clusters are stable in more spherical geometries while larger clusters are stable in more planar configurations. We also provide an estimated energy vs. size relationship, E(n), for use in future analysis.
Under irradiation, SiC develops damage commonly referred to as black spot defects, which are speculated to be self-interstitial atom clusters. To understand the evolution of these defect clusters and their impacts (e.g., through radiation induced swelling) on the performance of SiC in nuclear applications, it is important to identify the cluster composition, structure, and shape. In this work the genetic algorithm code StructOpt was utilized to identify groundstate cluster structures in 3C-SiC. The genetic algorithm was used to explore clusters of up to ∼30 interstitials of C-only, Si-only, and Si-C mixtures embedded in the SiC lattice. We performed the structure search using Hamiltonians from both density functional theory and empirical potentials. The thermodynamic stability of clusters was investigated in terms of their composition (with a focus on Si-only, C-only, and stoichiometric) and shape (spherical vs. planar), as a function of the cluster size (n). Our results suggest that large Si-only clusters are likely unstable, and clusters are predominantly C-only for n ≤ 10 and stoichiometric for n > 10. The results imply that there is an evolution of the shape of the most stable clusters, where small clusters are stable in more spherical geometries while larger clusters are stable in more planar configurations. We also provide an estimated energy vs. size relationship, E(n), for use in future analysis. •Optimized self-interstitial atom clusters in 3C-SiC with genetic algorithm.•Clustering of Si interstitials is energetically unfavorable for size n atoms ≥ 4.•Stable clusters are C-only for n < 10, and stoichiometric for n ≥ 10.•Clusters with planar features become stable as cluster size increase.•Thermodynamic information on stable clusters provided to guide further studies.
Author Morgan, Dane
Kaczmarowski, Amy
Ko, Hyunseok
Szlufarska, Izabela
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Issue C
Keywords SiC
Defect cluster
Genetic algorithm
Radiation
Self-interstitial
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SSID ssj0005905
Score 2.2772737
Snippet Under irradiation, SiC develops damage commonly referred to as black spot defects, which are speculated to be self-interstitial atom clusters. To understand...
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StartPage 62
SubjectTerms Algorithms
Cluster analysis
Clusters
Defect cluster
Density
Empirical analysis
Evolution
Genetic algorithm
Genetic algorithms
Hamiltonian functions
Interstitials
Irradiation
Radiation
Radiation damage
Radiation effects
Self-interstitial
SiC
Silicon carbide
Studies
Thermodynamics
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Title Optimization of self-interstitial clusters in 3C-SiC with genetic algorithm
URI https://dx.doi.org/10.1016/j.jnucmat.2017.05.015
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