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Propagation properties of sub-millimeter waves in foggy conditions
Y. Golovachev
, A. Etinger
,
G. A. Pinhasi
,
Y. Pinhasi
Department of Chemical Engineering
Department of Electrical and Electronics Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
37
Scopus citations
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Keyphrases
Attenuation
100%
Submillimeter-wave
100%
Group Delay
100%
Foggy Weather
100%
Propagation Properties
100%
Dispersive Effects
50%
Water Droplet
25%
Analytical Model
25%
Remote Sensing
25%
Submillimeter
25%
Frequency-modulated Continuous-wave (FM-CW)
25%
Electromagnetic Radiation
25%
Atmospheric Media
25%
Link Budget
25%
Low Visibility
25%
Water Effect
25%
Visibility Range
25%
Terahertz Frequency
25%
High-resolution Radar
25%
Water Content
25%
Terahertz Wave
25%
Optical Visibility
25%
Complex Refractivity
25%
Millimeter Wave Propagation
25%
Terahertz Regime
25%
Fog Chamber
25%
Free Space Optical Link
25%
Frequency-dependent Attenuation
25%
Wave Propagation Model
25%
Free Space Optics
25%
Cloudy Conditions
25%
Hazy Weather
25%
Temporal Groups
25%
Earth and Planetary Sciences
Submillimeter Wave
100%
Space Optics
66%
Millimeter Wave
33%
Atmospherics
33%
Continuous Radiation
33%
Refractivity
33%
Low Visibility
33%
Diffraction
33%
Moisture Content
33%
Electromagnetic Radiation
33%
Radar Resolution
33%
Radar Remote Sensing
33%
Physics
Space Optics
100%
Atmospherics
50%
Refractivity
50%
High Resolution
50%
Continuous Radiation
50%
Electromagnetic Radiation
50%
Wave Propagation
50%
Moisture Content
50%