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Polarization rotation in meteor burst communication systems
Paul S. Cannon
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Corresponding author for this work
Electronic, Electrical and Systems Engineering
Research output
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Contribution to journal
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Article
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peer-review
17
Citations (Scopus)
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Keyphrases
Communication Systems
100%
Polarization Rotation
100%
Meteor Burst Communication
100%
Linearly Polarized
100%
Transmitting Antennas
50%
Receiving Antennas
50%
Faraday Rotation
25%
Circular Polarization
25%
Experimental Confirmation
25%
Hybrid System
25%
Antenna System
25%
Polarization Change
25%
Sunspot number
25%
Wave Polarization
25%
Performance Variation
25%
Cross-polarization
25%
Rotation Loss
25%
Summer Solstice
25%
Meteor Trail
25%
Data Throughput
25%
Physics
Antenna
100%
Packet (Communication)
100%
Meteoroid Shower
100%
Faraday Effect
33%
Theoretical Model
33%
Polarization (Wave)
33%
Cross Polarization
33%
Sunspot Number
33%
Meteor Trails
33%
Summer Solstice
33%
Computer Science
Receiving Antenna
100%
Transmitting Antenna
100%
Qualitative Approach
50%
Operating Systems
50%
Performance Variation
50%
Throughput Data
50%
Engineering
Communication System
100%
Polarization Rotation
100%
Receiving Antenna
50%
Antenna
25%
Summer Solstice
25%
Qualitative Approach
25%