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Electromagnetic theory of reflaxicon fields
Jari Turunen, Ari T. Friberg
School of Engineering & Physical Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
12
Citations (Scopus)
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INIS
distribution
66%
electromagnetic fields
33%
energy
33%
energy density
100%
failures
33%
illumination
33%
incidents
66%
poynting vector
33%
symmetry
100%
wave propagation
100%
Engineering
Assuming
33%
Electric Energy
33%
Energy Density
100%
Energy Flow
33%
Focal Line
33%
Incident Plane Wave
33%
Incident Wave
33%
Magnetic Energy
66%
Optical Axis
66%
Plane Wave
66%
Poynting Vector
33%
Mathematics
Electro-Magnetic Field
33%
Electromagnetic Theory
100%
Energy Density
100%
Energy Flow
33%
Incident Wave
33%
Perpendicularity
33%
Plane Incident Wave
33%
Plane Wave
66%
Pointwise
33%
Right Angle
33%
Symmetric Distribution
33%
Physics
Electromagnetic
100%
Electromagnetic Fields
33%
Flux Density
100%
Plane Wave
100%
Chemistry
Electromagnetic Field
33%
Illumination
33%
Plane Wave
100%