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Surface current double-heterogeneous multilayer multicell methodology
J. Stepanek,
M. Segev
Research output
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Contribution to journal
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Article
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peer-review
2
Scopus citations
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Dive into the research topics of 'Surface current double-heterogeneous multilayer multicell methodology'. Together they form a unique fingerprint.
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Engineering
Transmissions
100%
Cross Section
100%
Energy Engineering
100%
Boundary Condition
100%
Thermal Energy
100%
Limited Number
100%
Spatial Distribution
100%
Neutron Flux
100%
Pebble Bed
100%
Left Side
100%
Spherical Geometry
100%
Table Method
100%
Collision Probability
100%
Keyphrases
Surface Currents
100%
Multi-cell
100%
Hexagonal Lattice
40%
Square Lattice
40%
Cylindrical Geometry
40%
Spherical Geometry
40%
Cosine
40%
Interpolation Process
40%
Slab Geometry
40%
Neutron
20%
Two-zone
20%
Thermal Energy
20%
Energy Range
20%
Spatial Distribution
20%
Energy-dependent
20%
Neutron Flux
20%
Transport Equation
20%
Cell Boundary
20%
Routine Evaluation
20%
Left-handed
20%
Right-sided
20%
Cell Layer
20%
Transmission Probability
20%
Resonance Integral
20%
Cylindrical Cell
20%
Pebble Bed
20%
Current Transport
20%
Bed Configuration
20%
Collision Probability
20%
Escape Probability
20%
Homogeneous-flux
20%
Multigroup Cross Section
20%
Material Heterogeneity
20%
Complex Lattice
20%
Spherical Cell
20%
Table Method
20%
Mathematics
Probability Theory
100%
Lattices
75%
Cosine
50%
Spatial Distribution
25%
Cross Section
25%
Boundary Condition
25%
Left Side
25%
Table Method
25%
Spherical Geometry
25%
Escape Probability
25%
Transport Equation
25%